M2SFP+4SFP is a unique test module for flexible Layer 2-3 testing


The C-Odin-10G-4S-2P-Combi offers two 10GE and four 1GE test ports. This flexible combination allows you to test both speeds simultaneously for cost-effective Layer 2-3 testing.

(*only available in ValkyrieCompact chassis)

Unique test module for flexible Layer 2-3 testing

The C-Odin-10G-4S-2P-Combi is a wire-speed 2-port 10GE and 4-port 1GE test module.

Based on Xena’s advanced architecture, the C-Odin-10G-4S-2P-Combi is only available for the robust transportable 1U ValkyrieCompact chassis.

The C-Odin-10G-4S-2P-Combi comes complete with Xena’s free ValkyrieManager software – an easy-to-use GUI for handling both routine and advanced test schedules that includes ValkyrieCLI, Valkyrie2544, Valkyrie1564, Valkyrie3918 and Valkyrie2889.

Interface category 10G and 1G Ethernet
Number of test ports 2 x 10G and 4 x 1G
Interface options 2 x 10GBASE-SR / LR / LRM / ER / Direct Attached Cable (DAC)(1)and
4 x 10/100/1000BASE-T(2) or 1000BASE-X (SFP-MSA) or 100BASE-FX(2) or 100BASE-BX(3)
Number of transceiver module cages 2 x SFP+ and 4 x SFP
Port statistics(4) Link state, FCS errors, pause frames, ARP/PING, error injections, training packet
All traffic: RX and TX Mbit/s, packets/s, packets, bytes
Traffic w/o test payload: RX and TX Mbit/s, packets/s, packets, bytes
Adjustable Inter Frame Gap (IFG) Configurable from 16 to 56 bytes, default is 20B (12B IFG + 8B preamble)
Transmit line rate adjustment Ability to adjust the effective line rate by forcing idle gaps equivalent to -1000 ppm (increments of 10 ppm)
ARP/PING Supported (configurable IP and MAC address per port)
Field upgradeable System is fully field upgradeable to product releases (FPGA images and Software)
Two real-time histograms per port. Each histogram can measure one of RX/TX packet length, IFG, jitter, or latency distribution for all traffic, a specific stream, or a filter
Tx disable Enable/disable of optical laser or copper link
IGMPv2 multicast join/leave) IGMPv2 continuous multicast join, with configurable repeat interval
Oscillator characteristics • Initial Accuracy is 3 ppm
• Frequency drift over 1st year: +/- 3 ppm (over 15 years: +/- 15 ppm)
• Temperature Stability: +/- 20 ppm (Total Stability is +/- 35 ppm)
Loopback modes – L1RX2TX – RX-to-TX, transmit byte-by-byte copy of the incoming packet
– L2RX2TX – RX-to-TX, swap source and destination MAC addresses
– L3RX2TX – RX-to-TX, swap source and destination MAC addresses and IP addresses
– TXON2RX – TX-to-RX, packet is also transmitted from the port
– TXOFF2RX – TX-to-RX, port’s transmitter is idle
– Port-to-port – Inline loop mode where all traffic is looped 100% transparent at L1
Number of transmit streams per port 32 (wire-speed) for 1G ports and 256 (wire-speed) for 10G ports.
Each stream can generate millions of traffic flows through the use of field modifiers
Test payload insertion per stream Wire-speed packet generation with timestamps, sequence numbers, and data integrity signature optionally inserted into each packet.
Stream statistics(4) TX Mbit/s, packets/s, packets, bytes, FCS error, Pause
Bandwidth profiles Burst size and density can be specified. Uniform and bursty bandwidth profile streams can be interleaved
Field modifiers 16-bit header field modifiers with inc, dec, or random mode. Each modifier has configurable bit-mask, repetition, min, max, and step parameters. 2 modifiers per stream for 1G ports and 5 modifiers per stream for 10G ports.
Packet length controls Fixed, random, butterfly, and incrementing packet length distributions. Packet length from 56 to 16384 bytes
Packet payloads Repeated user specified 1 to 18B pattern, a 8-bit incrementing pattern
Error generation Undersize length (56B min) and oversize length (16384 max.) packet lengths, injection of sequence, misorder, payload integrity, and FCS errors
TX packet header support and RX autodecodes Ethernet, Ethernet II, VLAN, ARP, IPv4, IPv6, UDP, TCP, LLC, SNAP, GTP, ICMP, RTP, RTCP, STP, MPLS, PBB, or fully specified by user
Packet scheduling modes – Normal (stream interleaved mode). Standard scheduling mode, precise rates, minor variation in packet inter-frame gap.
– Strict Uniform. New scheduling mode, with 100% uniform packet inter-frame gap, minor deviation from configured rates.
– Sequential packet scheduling (sequential stream scheduling). Streams are scheduled continuously in sequential order, with configurable number of packets per stream.
– Burst. Packets per stream are organized in bursts. Bursts from active streams form a burst group. The user specifies time from start of one burst group till start of next burst group.
Number of traceable Rx streams per port 680 (wire-speed) for 1G ports and
2048 (wire-speed) for 10G ports
Automatic detection of test payload for received packets Real-time reporting of statistics and latency, loss, payload integrity, sequence error, and misorder error checking
Jitter measurement Jitter (Packet Delay Variation) measurements compliant to MEF10 standard with 8 ns accuracy. Jitter can be measured on up to 32 streams.
Stream statistics(4) – RX Mbit/s, packets/s, packets, bytes.
– Loss, payload integrity errors, sequence errors, misorder errors
– Min latency, max latency, average latency
– Min jitter, max jitter, average jitter
Latency measurements accuracy ±16/32 ns (opto/elec) for 1G ports and
±8 ns for 10G ports
Latency measurement resolution 8 ns (Latency measurements can calibrate and remove latency from transceiver modules)
Number of filters: – 6 x 64-bit user-definable match-term patterns with mask, and offset
– 6 x frame length comparator terms (longer, shorter)
– 6 x user-defined filters expressed from AND/OR’ing of the match and length terms.
Filter statistics(4) Per filter: RX Mbit/s, packets/s, packets, bytes.
Capture criteria All traffic, stream, FCS errors, filter match, or traffic without test payloads
Capture start/stop triggers Capture start and stop trigger: none, FCS error, filter match, payload error
Capture limit per packet 16 – 16384 bytes
Wire-speed capture buffer per port 16 kB for 1G ports and
64 kB for 10G ports
Low speed capture buffer per port (10Mbit/sec) 4096 packets (any size)
(1) The interface implements discrete PHY devices with built in EDC support that employs sophisticated signal processing techniques to recover a 10 Gbps signal that has travelled over a dispersive Copper Direct attach cable and restore a bit-error rate of 10-12 or better.

(2) Requires Finisar SFP transceiver FCLF-8521-3 with sgmii host interface

(3) Requires Source Photonics SFP transceivers with sgmii host interface

(4) Counter size: 64 bits


  • 2 x 10G ports AND 4 x 1G ports
  • Price/performance
  • Robust form factor
  • Ease of use
  • Free software
  • Three years’ free SW updates
  • Three years’ free hardware warranty
  • Free tech support for product lifetime

Includes this free software:

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