The configuration file for the Napatech Software Suite is a human readable text file.

It is used to configure all the adapters in the system.
For each adapter it is possible to configure a number of parameters, such as:

AdapterType
BusId
RX and TX host buffers including number, size and NUMA node
Time synchronization parameters

Besides the adapter configuration there are a number of global configuration parameters, such as:
Time stamp format

Logging
Auto generated ini-file
If the ini-file is not found, it is auto generated, The auto generated ini-file will contain keys with default values for all installed adapters. Each key/value pair is appended with a comment showing the possible values for the key and the default value is marked with a '*'.
In order to get an auto generated ini-file for all adapters, the existing ini-file must be deleted or renamed and the driver must be stopped and started again. Afterwards the ini-file can be edited to fit the users needs.

Note: A setting depends on a certain adapter to be supported. Not all adapters support all settings.
In the tables below the supported adapters for each setting can be seen in the "Supported Adapters" column. But a setting can also be dependent of the FPGA version. This means that even though the adapter is supporting a setting according to the description, the setting can be unsupported and rejected by the adapter, if the adapter is equipped with an older FPGA.

System settings
[System] - This section contains system-wide settings

Adapter settings
The adapter settings can be specified in two ways. Either as a specific adapter section like [Adapter0] or like an adapter type section like [NT40E3_4_PTP]. An adapter section is specific for a certain adapter while an adapter type section covers all adapters of the specified type. If the same setting is specified both in the adapter section and the adapter type section, the value specified in the adapter section is used.

[AdapterX] - Adapter specific settings
This section contains settings for a particular adapter, identified by the BusId. You must have an AdapterType and a BusId setting in this section. If you, however, have only one adapter, the BusId setting can be omitted, which will allow the adapter to be moved around. The adapter will be given the logical number X. If no sections named like this is found (eg. if the ini file is empty), all adapters in the system will be configured.

[NTxxEyy] - Adapter type setting
If a setting is not found in the [AdapterX] section it will be looked for in a section named after the AdapterType of the given adapter - eg. [NT40E3_4_PTP]. You can use these sections to configure all adapters of the same kind in just one place. Valid adapter type names are the values used in the AdapterType setting.

Logging settings
[Logging] - This section contains logging settings

See below for a description of the ini-file settings and an example of the ini-file

Parameter	Possible values	Default value	Description	Supported adapters	Section
AdapterType	`NT40A01_4X1 NT20E3_2_PTP NT40E3_4_PTP NT50B01_2X10_25 NT50B01_2X25 NT50B01_2X1_10 NT100A01_4X1_10 NT100A01_4X10_25 NT40A11_4X1_10 NT80E3_2_PTP NT80E3_2_PTP_8X10 NT100E3_1_PTP NT200A01 NT200A01_2X100 NT200A01_8X10 NT200A01_2X40 NT200A01_2X10_25 NT200A01_2X25 NT200A02_2X10_25 NT200A02_2X25 NT200A02_2X100 NT200A02_2X40 NT200A02_4X10_25 NT200A02_4X25 NT200A02_8X10 NT200A02_2X1_10 NT4E NT20E NT4E_STD NT20E2 NT40E2_1 NT40E2_4 NT4E2_PTP NT20E2_PTP INTEL_A10_4X10 INTEL_A10_1X40`		The type of the adapter	`All adapters are supported`	Adapter
AltTPID	`0 .. 65535`	`33024`	An alternative VLAN TPID. Frames with this VLAN TPID will also be handled as VLAN frames by the adapter.	NT4E NT20E NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G	Adapter
BondingType	`Separate : All supported adapters Master : NT100E3-1-PTP (9504) NT200A02_8x10G NT200A02-2x40G NT40E3-4-PTP (3GA) NT100A01_4x1G/10G Slave : NT100E3-1-PTP (9504) NT200A02_8x10G NT200A02-2x40G NT40E3-4-PTP (3GA) NT100A01_4x1G/10G Peer : NT100E3-1-PTP (9505)`	`Separate`	Specifies the role of the adapter when bonded to another adapter	`NT100E3-1-PTP (9505) NT100E3-1-PTP (9504) NT40E3-4-PTP (3GA) NT100A01_4x1G/10G NT200A02-2x40G NT200A02_8x10G`	Adapter
BusId	`NNNN:NN:NN.N`	`0000:00:00.0`	The PCI bus ID. Adapters are uniquely identified using the bus ID. If domain is omitted, 0000 is assumed. BDF format mirrors lspci. Note If only one adapter is present, the bus ID is ignored.	`All adapters are supported`	Adapter
CancelTxOnCloseMask	`See ini-file help for information about possible values`	`0`	The port mask value is a bit mask: bit 0 = port 0, bit 1 = port 1 etc. Furthermore, each bit represents the adapter local port, not the virtual port. When transmit streams are closed the Tx-port adapters CancelTxOnCloseMask is checked and if the port-bit is set, all pending transmit data will be canceled and transmission of data will stop immediately. If not set, normal behavior will occur and all packets, not yet transmitted will be transmitted, even after closedown of the transmit stream. Note Not all adapters support this feature, in which case the driver will return an error.	NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G	Adapter
ConnectorInPTPClockAccuracy	`32 .. 254`	`254`	ConnectorIn PTP clock accuracy to use for PTP announce messages. Range is limited to [32..49,254] This parameter specifies the clock accuracy when the adapter clock reference is either Ext1, Int1 or Int2 (NttsIn or PpsIn). Note This parameter is only used when running in PTP master mode.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
ConnectorInPTPClockClass	`0 .. 248`	`187`	ConnectorIn PTP clock class to use for PTP announce messages. This parameter specifies the clock class when the adapter clock reference is either Ext1, Int1 or Int2 (NttsIn or PpsIn). Note This parameter is only used when running in PTP master mode.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
ConnectorInPTPClockTimeSource	`AtomicClock GPS TerrestrialRadio PTP NTP HandSet Other Oscillator`	`Other`	ConnectorIn PTP clock time source used for PTP Time Property Data Set. This parameter specifies the clock time source when the adapter clock reference is either Ext1, Int1 or Int2 (NttsIn or PpsIn). Note This parameter is only used when running in PTP master mode.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
CsrxAllowIpv6UdpZeroChecksum	`false true 0 1 2`	`1`	Checksum RX allow IPv6 UDP zero checksum Note 0: Do not allow UDP checksum value of zero for IPv6 packets. 1: Allow outer UDP checksum value of zero for IPv6 tunneling header for all UDP ports. 2: Allow outer UDP checksum value of zero for all IPv6 packets. Allow outer UDP checksum value of zero for IPv6 tunneling header for all UDP ports. Refer to RFC6935.	`NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-2x10G/25G`	Adapter
CsrxPrioritizeInnerProtocol	`true/false`	`false`	Checksum RX prioritize inner protocol Note Validate checksum of layer 3 and 4 protocols of tunneled packets ( first level inner packet ), otherwise validate outermost layer 3 and 4 packets of packets without a tunnel.	`NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-2x10G/25G`	Adapter
DeduplicationWindow	`10 .. 2000000`	`100`	Deduplication Window Note Determines the time window where deduplication can take place in µs.	`NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01_8x10G NT200A01-2x40G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT40E3-4-PTP (4GA) NT20E3-2-PTP (4GA) NT40A01-4x1 INTEL-A10-1x40G INTEL-A10-4x10G NT40A11_4x1G/10G`	Adapter
DisableFec	1 : NT50B01_2x25 NT100A01_4x10G/25G NT100E3-1-PTP (3GA) NT200A01-2x10G/25G NT200A01-2x100G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02-2x100G 0 : NT50B01_2x25 NT100A01_4x10G/25G NT100E3-1-PTP (3GA) NT200A01-2x10G/25G NT200A01-2x100G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02-2x100G true : NT50B01_2x25 NT100A01_4x10G/25G NT100E3-1-PTP (3GA) NT200A01-2x10G/25G NT200A01-2x100G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02-2x100G false : NT50B01_2x25 NT100A01_4x10G/25G NT100E3-1-PTP (3GA) NT200A01-2x10G/25G NT200A01-2x100G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02-2x100G	`0`	Adapters that support FEC (Forward Error Correction) will normally enable FEC if this is required by the NIM (Network Interface Module) that has been plugged in. E.g. for an NT100E3: If a CFP4-LR4 module is plugged in then FEC will be disabled, while it will be enabled by default for a CFP4-SR4 module. It is possible however to disable FEC in this situation by setting DisableFec = true. In the opposite situation however it is not possible to enable FEC, if a LR4 module has been plugged in. Note Some early versions of NT100E3 does not support FEC, and if an SR4 module, which normally requires FEC, is plugged in, the module will be stated as not supported. By setting DisableFec = true then the SR4 module will be accepted but running without FEC. If only one key value is stated this will apply to all ports on the adapter but it is also possible to state a comma separated list of values - one for each port. In this case the number of values must match the number of ports.	`NT50B01_2x25 NT100E3-1-PTP (3GA) NT100E3-1-PTP (9505) NT100E3-1-PTP (9504) NT100A01_4x10G/25G NT200A01-2x100G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02-2x100G`	Adapter
DisableTxRemoteFault	`1 0 true false`	`0`	If remote fault is disabled no remote fault is sent to the link partner disregarding any error condition on the input. This behaviour is intended for Tx only or debugging situations. Note Not all adapters support this setting.	`NT200A01-2x40G NT200A02-2x40G`	Adapter
DiscardSize	`16 .. 63`	`16`	The DiscardSize option specifies the maximum frame size that is discarded by the adapter. If set to 63, all frames with a size less or equal to 63 will be discarded.	NT4E-STD NT4E NT20E NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G	Adapter
EnaSfp28_10G	`1 0 true false`	`0`	Specifies if 10G is also allowed for SFP28 NIM modules that normally only are specified to run at 25G. Note Not all adapters support this setting and specifying it for such an adapter results in an error. A port that does not support SFP28 modules ignores the setting.	`NT50B01_2x25 NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-4x10G/25G`	Adapter
FlowStatusLearnDone	`true/false`	`false`	Configure generation of Flow Status indications: Note When set to true a LearnDone status indication will be generated for the Flow Stream if a FlowWrite::LearnFlow succeed	`NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G`	Adapter
FlowStatusLearnFail	`true/false`	`true`	Configure generation of Flow Status indications: Note When set to true a LearnFail status indication will be generated for the Flow Stream if a FlowWrite::LearnFlow failed	`NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G`	Adapter
FlowStatusLearnIgnore	`true/false`	`true`	Configure generation of Flow Status indications: Note When set to true a LearnIgnore status indication will be generated for the Flow Stream if a FlowWrite::LearnFlow was ignored. This may happen if the flow already exists	`NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G`	Adapter
FlowStatusUnlearnDone	`true/false`	`false`	Configure generation of Flow Status indications: Note When set to true an UnlearnDone status indication will be generated for the Flow Stream if a FlowWrite::UnlearnFlow succeed	`NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G`	Adapter
FlowStatusUnlearnIgnore	`true/false`	`true`	Configure generation of Flow Status indications: Note When set to true an UnlearnIgnore status indication will be generated for the Flow Stream if a FlowWrite::UnlearnFlow was ignored This may happen if the flow doesn't exist	`NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G`	Adapter
FlowTimeOut	`0 .. 4294967295`	`120000`	Flow timeout Note When set to a non-zero value the flow scrubber will timeout flows where the time since the last seen packet is at least this value. Unit: Millisecond	`NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G`	Adapter
ForceTxOn	`DISABLE ENABLE`	`DISABLE`	Keeps TX link state up, even though Port RX is down. Enabling it has the following implications on a port: Disables automatic transmission of remote fault when local fault is detected in rx and disables automatic transmission of idle when remote fault is detected in rx.	`NT100E3-1-PTP (9505)`	Adapter
HashSeed	`0 .. 4294967295`	`4294967295`	An alternative hash seed. The hash seed is used as initial value for the hash algorithm. Changing this value will alter the data distribution in the streams.	NT4E NT20E NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G	Adapter
HighFrequencySampling	`DISABLE ENABLE`	`DISABLE`	This feature requires the NttsIn connector mode to be set. When the feature is enabled, the adapter time and the external time from the incoming NT-TS signal are sampled. Sampling occurs every 20 microseconds. This allows users to do post calculation on packet time stamps, if required.	NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G	Adapter
HostBufferHandlerAffinity	`-2 .. 7`	`-2`	The adapter host buffer handler thread affinity can be set with this parameter. -2 is default and sets the affinity to match the adapter number. -1 disables affinity and lets the host buffer handlers run on all CPUs as dictated by the system scheduler. 0..max pins the host buffer handler to that specific CPU. Note Intel Turbo Boost DN-0449 (Optimization Tips/Tweaking)	`All adapters are supported`	Adapter
HostBufferPollInterval	`default 10 50 100 250 500 1000 10000 25000 50000 100000`	`default`	Host buffer poll interval This parameter is in usec. It controls how often ntservice should poll for new data in the host buffers. Changing this option affects latency; a higher value increases latency but lowers the CPU utilization in ntservice to service the host buffers. Note Should be changed with care as a wrong setting can result in packet loss Intel Turbo Boost DN-0449 (Optimization Tips/Tweaking)	`All adapters are supported`	Adapter
HostBufferRefreshIntervalAll	`default 1 5 10 50 100 250 500`	`default`	Host buffer refresh interval. Affects both the RX and TX data path. The default value for the two parameters, HostBufferRefreshIntervalRx and HostBufferRefreshIntervalTx, can be set with this single parameter. This parameter is in usec. Note For help, please see description for HostBufferRefreshIntervalRx and HostBufferRefreshIntervalTx. Default value is 100.	`NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G`	System
HostBufferRefreshIntervalRx	`default 1 5 10 50 100 250 500`	`default`	Rx host buffer refresh interval. Affects the RX data path. It controls how often the FPGA should poll for new data in the RX host buffers. Changing this option affects latency; a higher value increases latency. This parameter is in usec. Default value is 100. Note NOTE: The default value can be modified with the HostBufferRefreshIntervalAll parameter. A lower value of 50 or 10 is recommended for inline applications to improve latency.	`NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G`	Adapter
HostBufferRefreshIntervalTx	`default 1 5 10 50 100 250 500`	`default`	Tx host buffer refresh interval. Affects the TX data path. It controls how often the FPGA should poll for new data in the TX host buffers. Changing this option affects latency; a higher value increases latency. This parameter is in usec. Default value is 100. Note NOTE: The default value can be modified with the HostBufferRefreshIntervalAll parameter. A lower value of 50 or 10 is recommended for inline applications to improve latency.	`NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G`	Adapter
HostBufferSegmentAlignmentRx	default : NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G none : NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_2x1G/10G NT200A02_8x10G 0 : NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_2x1G/10G NT200A02_8x10G 512 : NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G 1024 : NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G 2048 : NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G 4096 : NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G	`default`	The HostBufferSegmentAlignmentRxsetting should only be used with non-dynamic HostBufferSegmentSize setting. In this situation the beginning of segments in hostbuffer memory is aligned with the value of the HostBufferSegmentAlignmentRx setting. This can be useful in situations where segments are written directly to disk using DMA/Direct I/O which requires the buffers to appear aligned in host memory. Currently "default" and "none" maps to 0. Which makes sense in that HostBufferSegmentSizeRx defaults to "dynamic" - and in that mode HostBufferSegmentAlignmentRx is not applicable. Note	`NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G`	Adapter
HostBufferSegmentSizeRx	default : All supported adapters dynamic : NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_2x1G/10G NT200A02_8x10G 0 : NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_2x1G/10G NT200A02_8x10G 1 : All supported adapters 2 : All supported adapters 4 : All supported adapters 64K : NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G 128K : NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G 256K : NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G 512K : NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G 1M : All supported adapters 2M : All supported adapters 4M : All supported adapters	`default`	Host buffer Rx segment size This parameter is in MB. It controls the segment size of the RX host buffer(s). Changing this option affects how much data each segment within the host buffer can hold before it is released to the user. Currently default is equal to setting value dynamic - meaning that the RX host buffer segment size is dynamic Note Adapters running NT3GA FPGAs - the RX host buffer sizes specified via HostBuffersRx must be at least 16*HostBufferSegmentSizeRx. Adapters running NT4GA FPGAs - which have been configured to use static host buffer segment size - is only able to utilize half of the maximum available host buffers - typically 64 host buffers.	`All adapters are supported`	Adapter
HostBufferSegmentSizeTx	`default 1 2 4 1M 2M 4M`	`default`	Host buffer Tx segment size This parameter is in MB. It controls the segment size of the TX host buffer(s). Changing this option affects how much data each segment within the host buffer can hold before it is released to the adapter. Note Should be changed with care. The TX host buffer sizes specified via HostBuffersTx must be at least 16*HostBufferSegmentSizeTx.	`All adapters are supported`	Adapter
HostBufferSegmentTimeOut	`default 10 50 100 250 500 1000 10000 25000 50000 100000`	`default`	Host buffer segment timeout This parameter is in usec. It controls how often the FPGA releases segments that are not full. Changing this option affects latency; a higher value increases latency but lowers the CPU utilization in ntservice to service the segments. Note Should be changed with care as a wrong setting can result in packet loss Intel Turbo Boost DN-0449 (Optimization Tips/Tweaking)	`All adapters are supported`	Adapter
HostBuffersRx	`[x1, x2, x3], ...`	`[4,16,-1]`	This parameter controls the RX host buffers per adapter. Host buffers are defined using "[a, b, c]" where: a : The amount of host buffers with size=b and NUMA=c b : The size of the host buffer in MB. It must be a multiple of 4 and >= 16 c : The NUMA node on which the host buffers should be allocated HostBufferRx can specify multiple host buffer definitions using CSV, e.g., HostBufferRx=[1,16,0],[1,16,1], which defines one 16MB host buffer on NUMA node 0 and one 16MB host buffer on NUMA node 1. To disable a host buffer, set the amount (parameter "a") to 0 (zero). To get one hostbuffer per port, set the amount (parameter "a") to "$NumPorts$". -1 in parameter c means take the value from the NumaNode parameter. Note The driver supports a total max of 1024 GB host buffer memory (across all adapters). A total number of 128 hostbuffers is supported per adapter running with NT4GA FPGA NOTE: for adapters running with NT4GA FPGAs the maximum available host buffers is dependant on the HostBufferSegmentSizeRx setting A total number of 32 hostbuffers is supported per adapter running with NT3GA FPGA	`All adapters are supported`	Adapter
HostBuffersTx	`[x1, x2, x3], ...`	`[4,16,-1]`	This parameter controls the TX host buffers per adapter. Host buffers are defined using "[a, b, c]" where: a : The amount of host buffers with size=b and NUMA=c b : The size of the host buffer in MB. It must be a multiple of 4 and >= 16 c : The NUMA node on which the host buffers should be allocated HostBufferTx can specify multiple host buffer definitions using CSV, e.g., HostBufferTx=[1,16,0],[1,16,1], which defines one 16MB host buffer on NUMA node 0 and one 16MB host buffer on NUMA node 1. To disable a host buffer, set the amount (parameter "a") to 0 (zero). -1 in parameter c means take the value from the NumaNode parameter. Note A total number of 128 hostbuffers and a total max of 1024 GB host buffer memory is supported.	`All adapters are supported`	Adapter
IfgMode	`NS BYTE`	`NS`	Specifies if the port handles IFG values in 10 ns ticks or bytes at startup	`NT4E-STD NT4E NT20E NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01_8x10G NT200A01-2x40G NT200A01-2x100G NT200A02-2x100G NT200A02-2x40G INTEL-A10-1x40G INTEL-A10-4x10G`	Adapter
KmTcamConfig	`[cnt, len, dualLookup], ...`	`[2,4,0],[4,1,0]`	This parameter controls the configuration of the key store TCAM used by the IP match feature. It is defined using "[c, l, d]" where: c : The the number of banks used for lookup of keys with size l l : The key length. Ipv4 has length 1 and IPv6 has length 4 d : Should dual lookup be supported. 0: no, 1: yes Dual lookup means that you can look up both source and destination addresses in one filter (IPMatch == SrcIP,DstIp). The c parameter is ignored, but kept for backwards compatibility, Default is no dual lookup. Note A configuration must be specified for both IPv4 and IPv6 and you must specify the same value for dual lookup for both key sizes. For some high-speed adapters (e.g. NT200) enabling dual-lookup will also cut the CAM capacity in half.	`NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G`	Adapter
LinkPropagationPortPairs	`[portA, portB], ...`		This parameter controls the configuration of link state propagation port pairs. A link state propagation port pair is defined using [portA, portB] While at least one of the links are down: If port A link state is down, the laser is turned off on port B and vice versa. Link down propagation is only active in one direction at a time. Note A port can only participate in one link state propagation pair at a time.	`All adapters are supported`	System
LogBufferWrap	`wrap nowrap`	`wrap`	wrap: Log buffer wraps when full. nowrap: Log does not wrap. Logging stops when buffer is full.	`All adapters are supported`	Logging
LogFileName	`String`	`/tmp/Log3G_%s.log`	The file name for the log file. If the file name contains a %s, this will be expanded with the date and time of the service start. Example: /tmp/test.log will not be expanded /tmp/test_%s.log will be expanded to /tmp/test_11_10_28_11_23_21.log The %s can be placed anywhere in the file name string.	`All adapters are supported`	Logging
LogMask	`See ini-file help for information about possible values`	`7`	0x01: ERROR level logging (i.e. recoverable error) 0x02: WARNING level logging (i.e. user attention required) 0x04: INFO level logging (i.e. non essential information) 0x08: DEBUG level logging (i.e. debug information) 0x10: DIAG level logging (i.e. diagnostic information) 0x20: Event level logging (i.e. event information) 0x40: CMD level logging (i.e. command information) 0x80: API level logging (i.e. API information)	`All adapters are supported`	Logging
LogToFile	`true/false`	`false`	0: Disable file logging 1: Enable file logging Note There is no limit to the logfile size. Use 3rd party logrorate tool. See DN-0449 Napatech Software Suite (Doxygen manual) Logging section for examples on logrotate.	`All adapters are supported`	Logging
LogToSystem	`true/false`	`true`	0: Disable system (syslogd) logging 1: Enable system (syslogd) logging	`All adapters are supported`	Logging
MaxFrameSize	`1518 .. 10000`	`9018`	The maximum frame size. Frames larger than this are treated as large. Range is 1518..10000 (default 9018).	`All adapters are supported`	Adapter
NtplFileName	`String`		NTPL startup file This file must contain valid NTPL commands. If the file exist, it will be downloaded to all adapters, when ntservice is started. Example: /opt/config/default.ntpl The filter setting described by default.ntpl will be downloaded to all adapters at startup.	`All adapters are supported`	System
NumaNode	`-1 .. 16`	`-1`	This parameter informs which NUMA node this adapter is connected to. It helps the driver determine how to allocate hostbuffers in a numa system. Note Using the default value (-1) the driver will attempt to determine the the adapter numa node location.	`All adapters are supported`	Adapter
NumWorkerThreads	`1 .. 100`	`16`	NTService splits inter-process communication (IPC) between worker threads. Each stream has an IPC connection to NTService, but the connection is only utilized when the stream exchanges information with NTService via NTAPI. All streams, except for the network stream, exchange information with NTService via IPC, but since these streams are not in the data path, they are rarely used, which is why the default number of worker threads is low. However, the pool of worker threads is a shared resource, and if a high number of applications use IPC concurrently and extensively, increase the number of worker threads to ensure applications do not block each other.	`All adapters are supported`	System
OnBoardMemorySplit	Dynamic : NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G Even : All supported adapters Proportional : All supported adapters	`Even`	This parameter controls the on-board SDRAM memory split among all host buffers. When set to Proportional, the SDRAM on-board memory is split in the same proportional relation as each host buffer size relates to the total host buffer memory allocated. Example: [1,512,0],[2,64,0] => split in 80/10/10 percent. When set to Dynamic, the SDRAM on-board memory is allocated dynamically to the host buffers that need it. One host buffer could potentially end up taking all SDRAM.	`All adapters are supported`	Adapter
OSTimePTPClockAccuracy	`32 .. 254`	`254`	OSTime PTP clock accuracy to use for PTP announce messages. Range is limited to [32..49,254] Note This parameter is only used when running in PTP master mode.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
OSTimePTPClockClass	`0 .. 248`	`248`	OSTime PTP clock class to use for PTP announce messages. Note This parameter is only used when running in PTP master mode.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
OSTimePTPClockTimeSource	`AtomicClock GPS TerrestrialRadio PTP NTP HandSet Other Oscillator`	`Other`	OSTime PTP clock time source used for PTP Time Property Data Set. Note This parameter is only used when running in PTP master mode.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PacketDescriptor	PCAP : All supported adapters NT : All supported adapters Ext7 : NT4E-STD NT4E NT20E NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) Ext8 : NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) Ext9 : NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G	`NT`	The default packet descriptor used when receiving packets Note PCAP descriptor may only be selected in combination with PCAP or PCAP_NS TimestampFormat. The PCAP descriptor is only supported in Capture, CaptureReplay and TrafficGen profile. The default packet descriptor can be overridden in individual NTPL assign statements.	`All adapters are supported`	Adapter
PacketPcapFcsInclude	`true/false`	`false`	Configure whether packets with a PCAP header includes the FCS field Note When set to true, and PacketDescriptor is set to PCAP, the adapter will not remove the FCS field as the PCAP standard dictates.	`NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G`	Adapter
PortDisableMask	`See ini-file help for information about possible values`	`0`	Specifies the status of the port at startup. The disabled port must then be enabled manually, either by using the config tool or by using the config stream. The value is a bit mask: bit 0 = port 0, bit 1 = port 1, etc. Note Not all adapters support disabling of ports. Disabling a port on an adapter that does not support it results in an error. Only the bits covering a port is checked. For example, the value 0xFF disables all ports, no error is returned.	NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G	Adapter
PortSpeedMultiRate	`1G : NT40E3-4-PTP (3GA) NT20E3-2-PTP (3GA) NT40E3-4-PTP (4GA) NT20E3-2-PTP (4GA) NT100A01_4x1G/10G NT200A02_2x1G/10G NT50B01_2x1G/10G NT40A11_4x1G/10G 10G : All supported adapters 25G : NT50B01_2x25 NT100A01_4x10G/25G NT200A01-2x10G/25G NT200A02-2x10G/25G`		A comma separated list that specifies the initial speed for each port on an adapter that supports more than one speed. The first, leftmost value addresses local port 0 and so on. Note Not all adapters support this setting and specifying it for such an adapter results in an error. A port that does not support multi rate ignores the setting. In general it will be the module that has been plugged into a port that determines, if it supports multi rate or not.	`NT40E3-4-PTP (3GA) NT20E3-2-PTP (3GA) NT40E3-4-PTP (4GA) NT20E3-2-PTP (4GA) NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02_2x1G/10G`	Adapter
Profile	None : All supported adapters Capture : All supported adapters Inline : NT4E-STD NT4E NT20E NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) CaptureReplay : NT4E-STD NT4E NT20E NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) TrafficGen : NT4E-STD NT4E NT20E NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA)	`None`	Specifies the intended usage of an adapter. Not all adapters support a profile other than the default. If None is used, the profile defaults to the native profile of the adapter, e.g., Inline for inline and Capture for capture, etc. Note This setting is deprecated for all adapters with 4th generation FPGA's and has no effect.	`All adapters are supported`	Adapter
PtpAlwaysRespectUtcOffset	`0 .. 1`	`0`	PTP Always respect UTC offset. Note When this parameter is set to 1, the UTC offset announced by the master is respected regardless of the flags in the announce message.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpAnncInterval	`-3 .. 6`	`1`	PTP Announce interval in units of log2 seconds. Running in PTP master mode, this value specifies the mean PTP Announce message transmission interval. When running unicast transmission with a master, this parameter is used for the announce unicast transmission request.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpAnncTmo	`2 .. 10`	`3`	PTP Announce receipt timeout multiplier in units of log2 seconds. This parameter specifies the timeout multiplier value used to wait for announce message from PTP masters. Timeout (sec) = 2^(announce interval) * announce receipt timeout	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpClockDomain	`0 .. 128`	`0`	PTP clock domain. This parameter specifies the PTP clock domain for this clock to participate in.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpClockPriority1	`0 .. 255`	`128`	PTP clock priority 1. This parameter specifies the priority 1 value used in the default BMCA (Best Master Clock Algorithm).	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpClockPriority2	`0 .. 255`	`128`	PTP clock priority 2. This parameter specifies the priority 2 value used in the default BMCA (Best Master Clock Algorithm).	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PTPCommTech	`IPv4_UDP IEEE_802.3`	`IPv4_UDP`	PTP Communication transport protocol.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PTPDelayAsymmetry	`-999000000 .. 999000000`	`0`	PTP path delay asymmetry compensation. Specified in nanoseconds. This compensation must be positive when the propagation time master-to-slave is longer than the propagation time slave-to-master. Note If path asymmetry is experienced in the network and this parameter must be used, it is important to note that other parameter settings may influence the delay asymmetry. It is especially parameters like the Delay Mechanism (E2E vs P2P). Others, like the sync rate relation to the delay-request rate may also have a large influence.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PTPDelMech	`E2E P2P`	`E2E`	PTP delay mechanism. E2E means End-to-End and uses the delay request-response mechanism. P2P means Peer to Peer and uses the peer delay mechanism.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpDelrMinInterval	`-7 .. 6`	`0`	PTP Delay request min interval in units of log2 seconds. When running in PTP master mode, this parameter specifies the minimum delay-request interval to send to PTP slaves. When running in PTP slave mode, this value is the initial value used before receiving an update from master. When running unicast transmission with a master, this parameter is used for the delay-request unicast transmission request. Note This parameter is only used with the E2E delay mechanism.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpDhcp	`DISABLE ENABLE`	`ENABLE`	PTP port DHCP Enable. Note Ignored if PtpCommTech = IEEE_802.3	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PTPFilter	`None Minimum PDV`	`None`	PTP filter selection. This parameter specifies usage of a filter to be applied to measured delay values before fed to the PI controller unit. This may be usable in networks with high packet delay variations (PDV) values (especially non-PTP aware networks).	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpGw	`IP Address`	`192.168.0.1`	PTP port gateway IP address.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpIpAddr	`IP Address`	`192.168.0.2`	PTP port static IP address.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpMasterModeAllowed	`DISABLE ENABLE`	`DISABLE`	PTP master mode allowed. When set to ENABLE, this adapter may be used as PTP master. It will then use specified PTP clock quality information associated with the active clock reference in use, for PTP announce messages.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpMinFilterLen	`0 .. 4294967295`	`4`	PTP Minimum filter length. It is recommended that the filter length is at least two times the quotient of number of sync messages per second divided by the number of delay request messages per second. Best results are achieved with equal message rates i.e. quotient = 1. If the synchronization stability is not as desired, the filter length shall be increased	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpNetMask	`IP Address`	`255.255.255.0`	PTP port IP netmask.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpPDelInterval	`-6 .. 5`	`0`	PTP peer delay request interval in units of log2 seconds. This parameter is used when the P2P delay mechanism is selected. It specifies the interval to send peer delay request messages on the PTP port.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpPDVFilterOffsetAccuracy	`1 .. 1000000`	`1000`	PTP PDV filter worst-case offset accuracy in nanoseconds.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpPDVFilterPeriod	`1 .. 10000`	`4`	PTP PDV filter period in seconds.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpPortPCapTraceFile	`String`		PTP PCAP trace file. Specify a file path here to create a pcap trace file with the data transmitted and received on the PTP port. The trace file will be created on driver start and closed on driver close. Note The transmitted PTP event packets does not contain the time stamp actually applied to the packet. This is because the trace data is captured before reaching the PHY issuing the time stamp.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpPpsSampling	`DISABLE ENABLE`	`DISABLE`	PTP PPS sampling mode. Enables PPS sampling on the adapter clock by using the PTP module as PPS generator synchronized with a PTP master. Note Only valid on PTP adapters. When this parameter is enabled, PTP may not be configured as PTP master or reference clock to the adapter clock. The PTP module will run as a stand-alone module using the configuration specified.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpProfile	`Default Telecom Power Enterprise G.8275.1`	`Default`	The PTP profile to use.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpStatusLogFile	`String`		PTP status log file. This will generate a text log file with status dumps from the PTP stack each second.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpSynInterval	`-7 .. 6`	`0`	PTP Sync interval in units of log2 seconds. When running in PTP master mode, this parameter specifies the sync message interval to send out. When running unicast transmission with a master, this parameter is used for the sync unicast transmission request.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpTelecomDomain1	`4 .. 23`	`4`	PTP clock domain for unicast master 1. Note This is for use with Telecom profile only.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpTelecomDomain10	`4 .. 23`	`4`	PTP clock domain for unicast master 10. Note This is for use with Telecom profile only.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpTelecomDomain2	`4 .. 23`	`4`	PTP clock domain for unicast master 2. Note This is for use with Telecom profile only.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpTelecomDomain3	`4 .. 23`	`4`	PTP clock domain for unicast master 3. Note This is for use with Telecom profile only.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpTelecomDomain4	`4 .. 23`	`4`	PTP clock domain for unicast master 4. Note This is for use with Telecom profile only.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpTelecomDomain5	`4 .. 23`	`4`	PTP clock domain for unicast master 5. Note This is for use with Telecom profile only.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpTelecomDomain6	`4 .. 23`	`4`	PTP clock domain for unicast master 6. Note This is for use with Telecom profile only.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpTelecomDomain7	`4 .. 23`	`4`	PTP clock domain for unicast master 7. Note This is for use with Telecom profile only.	`All adapters are supported`	Adapter
PtpTelecomDomain8	`4 .. 23`	`4`	PTP clock domain for unicast master 8. Note This is for use with Telecom profile only.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpTelecomDomain9	`4 .. 23`	`4`	PTP clock domain for unicast master 9. Note This is for use with Telecom profile only.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PTPUnicastMasterAddr1	`IP Address`	`0.0.0.0`	PTP unicast master IP address 1.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PTPUnicastMasterAddr10	`IP Address`	`0.0.0.0`	PTP unicast master IP address 10.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PTPUnicastMasterAddr2	`IP Address`	`0.0.0.0`	PTP unicast master IP address 2.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PTPUnicastMasterAddr3	`IP Address`	`0.0.0.0`	PTP unicast master IP address 3.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PTPUnicastMasterAddr4	`IP Address`	`0.0.0.0`	PTP unicast master IP address 4.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PTPUnicastMasterAddr5	`IP Address`	`0.0.0.0`	PTP unicast master IP address 5.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PTPUnicastMasterAddr6	`IP Address`	`0.0.0.0`	PTP unicast master IP address 6.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PTPUnicastMasterAddr7	`IP Address`	`0.0.0.0`	PTP unicast master IP address 7.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PTPUnicastMasterAddr8	`IP Address`	`0.0.0.0`	PTP unicast master IP address 8.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PTPUnicastMasterAddr9	`IP Address`	`0.0.0.0`	PTP unicast master IP address 9.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpUnicastMasterTblQueryInt	`0 .. 16`	`1`	PTP unicast master table query interval in units of log2 seconds range[0..16]. If a unicast request is not granted by a master then this parameter specifies the time to wait before retrying the unicast request.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpUnicastTransmitDuration	`10 .. 1000`	`300`	PTP unicast transmit duration in seconds. This parameter specifies the unicast transmission grant period used for unicast transmit requests.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpUserDescription	`String`	`Napatech adapter`	PTP clock user description. This user description will be used in the PTP clock description message.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpUtcOffsetFromReference	`-32767 .. 32767`	`0`	PTP UTC offset from time source reference. Utc offset = Time ref - UTC time. Note This parameter is only used when the UTC offset is not known by the PTP master and may be applied when running in PTP slave mode.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpVlanId	`0 .. 4094`	`0`	PTP port VLan ID. Used on both Layer2 and IPv4. A value of '0' disables VLan.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
PtpVlanPrio	`0 .. 7`	`0`	PTP port VLan priority. Used on both Layer2 and IPv4.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
RemoteAdapter	`0 .. 8`	`-1`	Specifies to which adapter this one is bonded. Only relevant if BondingType is 'Peer'	`NT100E3-1-PTP (9505) NT100E3-1-PTP (9504)`	Adapter
SDRAMFillLevelWarning	`X1, X2, X3, X4`	`0`	The format is XX[,[YY][,[ZZ][,[UU]]]], where XX is the lowest and UU is the highest level. A level is an integer in the range 0 through 100 that expresses how big a percentage of a host buffer is in use. The system supports up to four fill levels: XX, YY, ZZ, and UU. A level pertains to the size of the SDRAM allocated to each host buffer. For example, if the level is set to 50 for an adapter with one gigabyte of memory and four host buffers using equal SDRAM split, then if any of the four host buffers uses more than 128 megabytes (equal split = 256MB/host buffer) of memory, the system generates an event for that specific host buffer. Note that when at least one fill level is defined, the system generates events when the fill level changes to either 0 (empty) or 100 (full) even though those two values are not explicitly listed in the ini-file, and it is not necessary to define, nor is it possible to disable, those two events. A level equal to zero disables that level and any subsequent level. Typing a comma without a value denotes a value of zero, e.g., '20,,' denotes '20,0,0', which defines a single warning level at 20 percent. Leaving out a value is generally a bad idea, for instance ',,20' denotes '0,0,20', which disables all events.	`All adapters are supported`	System
SDRAMSplit	`[Setting=0..100, ...]`	`[Buffer=12.5, Flowtable=87.5]`	SDRAM Split Note Determines the split of SDRAM between the host buffer system and the FlowTable. Valid settings contains "Buffer" and "FlowTable". "Buffer" must have a minimum of 12.5%%%% of allocated SDRAM. "FlowTable" must have a minimum of 6.25%%%% of allocated SDRAM. Unit: Percentage	`NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G`	Adapter
SofLinkSpeed	10M : NT4E NT4E-STD NT4E2-PTP 100M : NT4E-STD NT4E NT4E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT40A01-4x1 NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) 1G : NT4E-STD NT4E NT4E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT40A01-4x1 NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100A01_4x1G/10G NT200A02_2x1G/10G NT50B01_2x1G/10G NT40A11_4x1G/10G 10G : NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02_2x1G/10G 25G : NT50B01_2x25 NT100A01_4x10G/25G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-4x10G/25G		Specifies the speed of all ports on adapter when TimestampMethod is set to SOF. Note All these ports will have their capabilities reduced to only this speed, if they otherwise support more than one speed (trispeed, dual-rate).	`NT4E-STD NT4E NT4E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT40A01-4x1 NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02_2x1G/10G NT40A11_4x1G/10G`	Adapter
StatInterval	`1 10 20 25 50 100 200 400 500`	`500`	The setting control if statistics should be returned via the API every 100ms or every 500ms.	`All adapters are supported`	System
TimestampFormat	NATIVE : NT4E-STD NT4E NT20E NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NATIVE_NDIS : NT4E-STD NT4E NT20E NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NATIVE_UNIX : All supported adapters UNIX_NS : NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G PCAP : All supported adapters PCAP_NS : All supported adapters	`NATIVE_UNIX`	The timestamp format used by the adapter Note When selecting PCAP or PCAP_NS, all enabled adapters must use PCAP PacketDescriptor. PCAP and PCAP_NS is only supported in Capture and CaptureReplay profile.	`All adapters are supported`	System
TimestampInjectAlways	`true/false, ...`	`false`	Always perform Timestamp Inject Note True/False	`NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-2x10G/25G`	Adapter
TimestampInjectDynamicOffset	`TSI_DYN_SOF TSI_DYN_EOF TSI_DYN_L3 TSI_DYN_L4`	`TSI_DYN_SOF`	Timestamp Inject Dynamic Offset Note Values: TSI_DYN_SOF, TSI_DYN_EOF, TSI_DYN_L3, TSI_DYN_L4	`NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-2x10G/25G`	Adapter
TimestampInjectOffset	`SOF EOF`	`SOF`	Time Stamp Injection Offset Mode This setting pertains to transmission of packets (TX). The setting is used for controlling the offset base used when injecting time stamps into transmitted packets. The offset base can be either start of frame (SOF) or end of frame (EOF). Note that this setting defines the offset base, while the offset itself is part of an extended header. Mode SOF is start of frame, and is the original mode of Napatech adapters. Mode EOF denotes end of frame. Note Not all adapters support EOF time stamp inject mode, in which case the driver will return an error.	`NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA)`	Adapter
TimestampInjectStaticOffset	`-16384 .. 16383, ...`	`0`	Timestamp Inject Static Offset Note Range: [-16384 : 16383]	`NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-2x10G/25G`	Adapter
TimestampMethod	SOF : NT4E-STD NT4E NT20E NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT20E3-2-PTP (4GA) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02_8x10G NT200A02-2x40G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G EOF : All supported adapters	`EOF`	SOF = Start of Frame. EOF = End of Frame Reception of packets (RX): Packets can be time-stamped when the first octet is received (SOF) or when the last octet is received (EOF). Default is when the last octet is received. Transmission of packets (TX): The setting is used for controlling the value of the time stamp that the adapter inserts into transmitted packets. The timestamp can either be the time when the first byte of the packet is put on the wire (SOF) or the time when the last byte of the packet is put on the wire (EOF). If Timestamp method "SOF" is choosen all ports must run the same speed.	`All adapters are supported`	System
TimeSyncClockAdjustmentMode	`1 2`	`1`	Time synchronization clock adjustment mode. In clock adjustment mode 1, the clock change rate may be set as high as 100,000 ppm whereas in clock adjustment mode 2 the clock change rate has a maximum of 2000 ppm. Note PTP capable adapters will have default value of 2. PTP time synchronization must use clock adjustment mode 2. PTP capable adapters may use clock adjustment mode 1, but PTP is then not available. Non-PTP capable adapters may only use clock adjustment mode 1 (mode 1 is merely for backward compatibility).	`NT4E NT20E NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT200A01_8x10G NT200A01-2x40G NT200A01-2x100G NT200A02-2x100G NT200A02-2x40G`	Adapter
TimeSyncConnectorExt1	`None NttsIn PpsIn NttsOut PpsOut RepeatInt1 RepeatInt2`	`NttsIn`	Specifies the time synchronization mode, protocol and direction to use on the External 1 connector.	NT4E NT20E NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G	Adapter
TimeSyncConnectorInt1	`None NttsIn PpsIn NttsOut PpsOut RepeatExt1 RepeatInt2`	`None`	Specifies the time synchronization mode, protocol and direction to use on the Internal 1 connector.	NT4E NT20E NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G	Adapter
TimeSyncConnectorInt2	`None NttsIn PpsIn NttsOut PpsOut RepeatExt1 RepeatInt1`	`None`	Specifies the time synchronization mode, protocol and direction to use on the Internal 2 connector.	NT4E NT20E NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G	Adapter
TimeSyncFrequencyReferencePriority	`FreeRun SyncE`	`FreeRun`	This parameter specifies the frequency reference priority. The priority decreases from left to right. When a reference fails, the next reference in the list is used. Note When one or more failovers have occurred, the driver periodically attempts to get back to the highest or a higher priority.	`All adapters are supported`	Adapter
TimeSyncHardReset	`DISABLE ENABLE`	`ENABLE`	Enable or disable the allowance of hard resetting the time stamp clock to the reference clock when synchronizing to another clock (time jump vs sliding). Note When this parameter is disable, i.e. no time jumps allowed, first time jump after driver load is allowed. When running PTP slave and the time offset between slave and master is greater than 39 hours, a hard reset will occur caused by PTP protocol limitation.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
TimeSyncNTTSInSyncLimit	`1 .. 4294967295`	`5000`	The in-sync indicator limit for NT time sync. If the absolute skew is less than or equal to this value, the in-sync indicator is raised. Specified in nanoseconds. Note The events for the specified time sync in-sync limit does not include the time stamp information. The event is to notify users if a slave adapter is in sync with the master or out of sync whenever the specified limit is crossed.	NT4E NT20E NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G	Adapter
TimeSyncOSInSyncLimit	`1 .. 4294967295`	`50000`	The in-sync indicator limit for OS time sync. If the absolute skew is less than or equal to this value, the in-sync indicator is raised. Specified in nanoseconds. Note The events for the specified time sync in-sync limit does not include the time stamp information. The event is to notify users if a slave adapter is in sync with the master or out of sync whenever the specified limit is crossed.	`All adapters are supported`	Adapter
TimeSyncOsTimeReference	`None adapter-0 adapter-1 adapter-2 adapter-3 adapter-4 adapter-5 adapter-6 adapter-7`	`None`	The setting denotes the adapter whose clock is used to synchronize the system time, i.e., the operating system's clock. Only one adapter can serve as time source. The default behavior is not to synchronize the system time. For example, to use adapter zero's clock to synchronize the system time: [System] TimeSyncOsTimeReference = adapter-0 Avoid other means to synchronize the system time, for instance NTP, when enabling this feature. Note It is illegal to configure a cyclic dependency, which occurs if the host clock is synchronized with an adapter and that adapter's clock is synchronized with the host's clock. The driver detects this and issues an error. The following configuration is illegal: [System] TimeSyncOsTimeReference = adapter-0 [Adapter0] TimeSyncReferencePriority = OsTime	`All adapters are supported`	System
TimeSyncPPSInSyncLimit	`1 .. 4294967295`	`5000`	The in-sync indicator limit for PPS time sync. If the absolute skew is less than or equal to this value, the in-sync indicator is raised. Specified in nanoseconds. Note The events for the specified time sync in-sync limit does not include the time stamp information. The event is to notify users if a slave adapter is in sync with the master or out of sync whenever the specified limit is crossed.	NT4E NT20E NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G	Adapter
TimeSyncPTPInSyncLimit	`1 .. 4294967295`	`5000`	The in-sync indicator limit for PTP time sync. If the absolute skew is less or equal to this value, the in-sync indicator is raised. Specified in nanoseconds. Note The events for the specified time sync in-sync limit does not include the time stamp information. The event is to notify users if a slave adapter is in sync with the master or out of sync whenever the specified limit is crossed.	`NT4E2-PTP NT20E2-PTP NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT40A01-4x1 NT80E3-2-PTP NT80E3-2-PTP-8x10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02_8x10G NT200A02-2x10G/25G NT200A02-4x10G/25G NT200A02_2x1G/10G NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9505)`	Adapter
TimeSyncReferencePriority	`FreeRun PTP Int1 Int2 Ext1 OSTime`	`FreeRun`	This parameter specifies the priority of the reference clocks to use as synchronization clocks. The priority decreases from left to right. When a reference fails, the next clock reference in the list is used. Note When one or more failovers have occurred, the driver periodically attempts to get back to the highest or a higher priority.	`All adapters are supported`	Adapter
TimeSyncTimeJumpThreshold	`0 .. 3600`	`1`	When using PPS time synchronization, this parameter determines the number of seconds the adapter clock may be offset from the selected reference clock before a time jump is performed. When using OS time synchronization, this parameter is interpreted as an on/off time jump setting where time jumps are allowed when TimeSyncTimeJumpThreshold is not equal to 0. When set to 0, no time jumps are allowed (sliding). The hard-coded threshold used is 1 second. When using NT time synchronization, this parameter is interpreted as an on/off time jump setting where time jumps are allowed when TimeSyncTimeJumpThreshold is not equal to 0. When set to 0, no time jumps are allowed (sliding). Note To enable time sliding regardless of clock reference, set this parameter to 0. This parameter is only applicable when TimeSyncClockAdjustmentMode=1.	`All adapters are supported`	Adapter
TimeSyncTimeOffset	`0 .. 1000000`	`0`	Only applies to NT and PPS time synchronization. Sets the time synchronization signal delay compensation. Specified in nanoseconds.	`All adapters are supported`	Adapter
TxTiming	`ABSOLUTE RELATIVE`	`RELATIVE`	An adapter is either in relative or absolute timing mode. When in relative timing mode, an adapter transmits packets such that the inter-frame gap (IFG) between pairs of packets is correct. When in absolute timing mode, the adapter transmits packets at the time stipulated by the time stamp in the packet descriptor. When in relative timing mode, the IFG is most accurate but the (absolute) transmission time of a packet may be slightly off over time; whereas in absolute timing mode, the transmission time of a packet is most accurate over time but the IFG (between pairs of packets) may be slightly off. The default behavior is to run each adapter in relative timing mode. Note: In relative timing mode the max inter-frame gap is set to 2.6 sec. Note Not all adapters support absolute timing mode, in which case the driver will return an error.	`NT20E3-2-PTP (3GA) NT40E3-4-PTP (3GA) NT100E3-1-PTP (3GA) NT4E2-PTP NT20E2 NT20E2-PTP NT40E2-1 NT40E2-4 NT100A01_4x1G/10G NT100A01_4x10G/25G NT200A01_8x10G NT200A01-2x40G NT200A01-2x100G NT200A02-2x100G NT200A02-2x40G`	Adapter
VXLANAltDestinationPorts	`X1, X2`	`4789,4789`	User-specified VXLAN UDP destination ports. Up to two additional UDP destination ports can be specified, which will be used in conjunction with the standard port.	`NT20E3-2-PTP (4GA) NT40E3-4-PTP (4GA) NT100E3-1-PTP (9504) NT100E3-1-PTP (9505) NT40A01-4x1 NT40A11_4x1G/10G NT50B01_2x25 NT50B01_2x1G/10G NT100A01_4x1G/10G NT100A01_4x10G/25G NT80E3-2-PTP NT80E3-2-PTP-8x10G NT200E3-2 NT200A01-2x100G NT200A01_8x10G NT200A01-2x40G NT200A01-2x10G/25G NT200A02-2x10G/25G NT200A02-2x100G NT200A02-2x40G NT200A02-4x10G/25G NT200A02_8x10G NT200A02_2x1G/10G INTEL-A10-1x40G INTEL-A10-4x10G`	Adapter
WisMode	`DISABLE ENABLE`	`DISABLE`	Enable WIS/OC-192c mode on WIS supported adapters. Wis mode is enabled for all ports on the adapter. Note Not all adapters support WIS mode. Enabling WisMode on an adapter without Wis support will return an error.	`NT20E2 NT40E2-4 NT20E2-PTP`	Adapter
WisModeMask	`See ini-file help for information about possible values`	`255`	Specifies the wismode status of the port at startup. The value is a bit mask: bit 0 = port 0, bit 1 = port 1, etc. Note Requires that WisMode is enabled. The default value is 0xFF meaning thatwismode is enabled on all ports. Only the bits covering a port is checked. For example, the value 0xFF enables all ports, no error is returned. Enabling WisMode on an adapter without Wis support will return an error.	`NT20E2 NT40E2-4 NT20E2-PTP`	Adapter

Ini-file examples

1. Autogenerated ini-file example

[System]
HostBufferRefreshIntervalAll = default   # default* - 1 - 5 - 10 - 50 - 100 - 250 - 500
NumWorkerThreads = 16                    # 1 .. 100
SDRAMFillLevelWarning = 0                # X1, X2, X3, X4
TimestampFormat = NATIVE_UNIX            # NATIVE - NATIVE_NDIS - NATIVE_UNIX* - PCAP - PCAP_NS - UNIX_NS
TimestampMethod = EOF                    # UNKNOWN - SOF - EOF*
TimeSyncOsTimeReference = None           # None* - adapter-0 - adapter-1 - adapter-2 - adapter-3 - adapter-4 - adapter-5 - adapter-6 - adapter-7

[Logging]
LogBufferWrap = wrap                     # wrap* - nowrap
LogFileName = /tmp/Log3G_s.log          # String
LogMask = 7                              # See ini-file help for information about possible values
LogToFile = false                        # true/false
LogToSystem = true                       # true/false

[Adapter0]
AdapterType = NT40E3_4_PTP               # NT20E3_2_PTP - NT40E3_4_PTP - NT80E3_2_PTP - NT100E3_1_PTP - NT200A01
BusId = 0000:04:00.0                     # NNNN:NN:NN.N
DiscardSize = 16                         # 16 .. 63
HighFrequencySampling = DISABLE          # DISABLE* - ENABLE
HostBufferPollInterval = default         # default* - 10 - 50 - 100 - 250 - 500 - 1000 - 10000 - 25000 - 50000 - 100000
HostBufferRefreshIntervalRx = default    # default* - 1 - 5 - 10 - 50 - 100 - 250 - 500
HostBufferRefreshIntervalTx = default    # default* - 1 - 5 - 10 - 50 - 100 - 250 - 500
HostBufferSegmentSizeRx = default        # default* - dynamic - 1* - 2 - 4
HostBufferSegmentTimeOut = default       # default* - 100 - 250 - 500 - 1000 - 10000 - 25000 - 50000 - 100000
HostBuffersRx = [4,16,0]                 # [x1, x2, 0], ...
MaxFrameSize = 9018                      # 1518 .. 10000
NumaNode = 0                             # 0 .. 16
OnBoardMemorySplit = Even                # Even* - Proportional
PacketDescriptor = NT                    # PCAP - NT* - Ext7 - Ext8 - Ext9
PacketPcapFcsInclude = false             # true/false
PortDisableMask = 0                      # See ini-file help for information about possible values
PortSpeedMultiRate = 10G, 10G, 10G, 10G  # 1G - 10G*
Profile = None                           # None* - Capture - Inline - CaptureReplay - TrafficGen
PtpDhcp = ENABLE                         # DISABLE - ENABLE*
PtpProfile = Default                     # Default* - Telecom - Power
PtpUserDescription = Napatech adapter    # String
TimeSyncConnectorExt1 = NttsIn           # None - NttsIn* - PpsIn - NttsOut - PpsOut - RepeatInt1 - RepeatInt2
TimeSyncConnectorInt1 = None             # None* - NttsIn - PpsIn - NttsOut - PpsOut - RepeatExt1 - RepeatInt2
TimeSyncConnectorInt2 = None             # None* - NttsIn - PpsIn - NttsOut - PpsOut - RepeatExt1 - RepeatInt1
TimeSyncHardReset = ENABLE               # DISABLE - ENABLE*
TimeSyncNTTSInSyncLimit = 5000           # 1 .. 4294967295
TimeSyncOSInSyncLimit = 50000            # 1 .. 4294967295
TimeSyncPPSInSyncLimit = 5000            # 1 .. 4294967295
TimeSyncPTPInSyncLimit = 5000            # 1 .. 4294967295
TimeSyncReferencePriority = Ext1, FreeRun # FreeRun* - PTP - Int1 - Int2 - Ext1 - OSTime
TimeSyncTimeOffset = 0                   # 0 .. 1000000

2. Ini-file using adapter type section

[System]
HostBufferRefreshIntervalAll = default   # default* - 1 - 5 - 10 - 50 - 100 - 250 - 500
NumWorkerThreads = 16                    # 1 .. 100
SDRAMFillLevelWarning = 0                # X1, X2, X3, X4
TimestampFormat = NATIVE_UNIX            # NATIVE - NATIVE_NDIS - NATIVE_UNIX* - PCAP - PCAP_NS
TimestampMethod = EOF                    # UNKNOWN - SOF - EOF*
TimeSyncOsTimeReference = None           # None* - adapter-0 - adapter-1 - adapter-2 - adapter-3 - adapter-4 - adapter-5 - adapter-6 - adapter-7

[Logging]
LogBufferWrap = wrap                     # wrap* - nowrap
LogFileName = /tmp/Log3G_s.log          # String
LogMask = 7                              # See ini-file help for information about possible values
LogToFile = false                        # true/false
LogToSystem = true                       # true/false

[NT40E3_4_PTP]
DiscardSize = 16                         # 16 .. 63
HighFrequencySampling = DISABLE          # DISABLE* - ENABLE
HostBufferPollInterval = default         # default* - 10 - 50 - 100 - 250 - 500 - 1000 - 10000 - 25000 - 50000 - 100000
HostBufferRefreshIntervalRx = default    # default* - 1 - 5 - 10 - 50 - 100 - 250 - 500
HostBufferRefreshIntervalTx = default    # default* - 1 - 5 - 10 - 50 - 100 - 250 - 500
HostBufferSegmentSizeRx = default        # default* - dynamic - 1* - 2 - 4
HostBufferSegmentTimeOut = default       # default* - 100 - 250 - 500 - 1000 - 10000 - 25000 - 50000 - 100000
HostBuffersRx = [4,16,0]                 # [x1, x2, 0], ...
MaxFrameSize = 9018                      # 1518 .. 10000
NumaNode = 0                             # 0 .. 16
OnBoardMemorySplit = Even                # Even* - Proportional
PacketDescriptor = NT                    # PCAP - NT* - Ext7 - Ext8 - Ext9
PacketPcapFcsInclude = false             # true/false
PortDisableMask = 0                      # See ini-file help for information about possible values
PortSpeedMultiRate = 10G, 10G, 10G, 10G  # 1G - 10G*
Profile = None                           # None* - Capture - Inline - CaptureReplay - TrafficGen
PtpDhcp = ENABLE                         # DISABLE - ENABLE*
PtpProfile = Default                     # Default* - Telecom - Power
PtpUserDescription = Napatech adapter    # String
TimeSyncConnectorExt1 = NttsIn           # None - NttsIn* - PpsIn - NttsOut - PpsOut - RepeatInt1 - RepeatInt2
TimeSyncConnectorInt1 = None             # None* - NttsIn - PpsIn - NttsOut - PpsOut - RepeatExt1 - RepeatInt2
TimeSyncConnectorInt2 = None             # None* - NttsIn - PpsIn - NttsOut - PpsOut - RepeatExt1 - RepeatInt1
TimeSyncHardReset = ENABLE               # DISABLE - ENABLE*
TimeSyncNTTSInSyncLimit = 5000           # 1 .. 4294967295
TimeSyncOSInSyncLimit = 50000            # 1 .. 4294967295
TimeSyncPPSInSyncLimit = 5000            # 1 .. 4294967295
TimeSyncPTPInSyncLimit = 5000            # 1 .. 4294967295
TimeSyncReferencePriority = Ext1, FreeRun # FreeRun* - PTP - Int1 - Int2 - Ext1 - OSTime
TimeSyncTimeOffset = 0                   # 0 .. 1000000

[Adapter0]
AdapterType = NT40E3_4_PTP               # NT20E3_2_PTP - NT40E3_4_PTP - NT80E3_2_PTP - NT100E3_1_PTP - NT200A01
BusId = 0000:04:00.0                     # NNNN:NN:NN.N
DiscardSize = 32                         <== This setting overwrites the one in the adapter type section

*

ntservice.ini

Reference Documentation