UNH-IOL - reserved the IOl GTP for the week of June 20,2016. 6/20 - 6/24 NDA - registered with FCIA - thank you! Participated 03/18/2016 04/1/2016 04/08/2016 1. Amphenol Greg Greg 2. ATTO - 3. Emulex/AVAGO/Broadcom, Ltd Mark 4. Brocade Earl Howard - Earl Bryan Reese 5. Cisco Nick 6. HPE Barry Barry Barry 7. Molex Jay Alex Haser - Jay Alex 8. QLogic Nishant Craig - Nishant Nishant 9. SANBlaze - Mark - Steve Steve, Mark 10. Viavi - Jason 11. UNH-IOL Tim Tim Tim Optoway - withdrew on 04/08/2016. IOL is in a new location in downtown Durham. G2P space dedicated for events. Wireless is available. 208v/110V power. Tables have drop down recepticles. Tim to verify the patch connectivity, and how many connections per drop down. Obviously we need to tailor testing to the Monday to Friday noon time. Test tracks from the last plugfest 8AM-6PM each day. Likely that we will need to stay later - 8PM a couple of evenings (not Wednesday). Looking for sponsors for Wed. evening at Portsmouth Brewery. Registration pointer - in review and will be available soon for members to log their equipment. Testing Scope - increase focus on GEN 6 and interop of Gen 5 32/16/8G FC; include 128G FC and breakout. Direct connect 32G FC I-T direct connect test - SANBLAZE target support will be available. 32GFC distance - in addition to 100m and 300m tests, include AOCs, and SMF 10km (availability of LW transceivers). (if transceivers can be made available - would like to do this test) � FCoE Interop focus on NPV aggregation links - 25G availability? TEst track will be developed. - FCoE interop - NPV bridge VN - VF test is of interest for Brocade, Cisco, HPE � BB6 VN2VN testing - ? Is there an interest � Security - need more specific recommendations - what do we want to do with security ? � Backward compatibility � OpenStack Cinder Block Storage? Not much interest � Additional testing include (but not limited to): � Port channels � Link Aggregation (LACP) � Static or passive � Active � ON � T10-PI and DIX � Non-symmetrical 10G and 40G members in port-channel groups � Additional Zoning interactions/enhancements (e.g., Target-Driven Zoning) � VN2VN links � Validate that Multiple FCoE VLANS per channel or Aggregation group can be configured along with Ethernet traffic � ETS and PFC operations validation � Failover policies � Keystone and FC-SP-2 intersection What will likely be tested - from previous discussions ? o Gen 6 / 32Gb focused spanning FCoE (25Gb, 50Gb, 100Gb) ? Cable, media, negotiation in-between; � backwards compatibility with 16Gb - 8Gb � 32Gb multipath performance to 16Gb storage devices � 126Gb ? Analysis and traffic generation ? Physical media testing ? Security? -logins happen correctly -storage information is correct -Move data with IOMeter - or other load generator (MEDUSA - MLTT) -Name server entries are correct -start up Initiator first, then target, then switch (test each starting up first) -setting different(3) hard coded speeds on each of the 3 above, and auto-negotiating Tim - receiver tests Greg suggests some basic conformance test before general interop tests - transmitter tests Problem with pattern generation. Tim - IOL has contacts. Is 16G and 32G copper supported? Not in the 32G spec. There will be AOC 32G. Can plan on 32G AOC tests. Request that transceiver lockout be disabled (if possible). Test a matrix of multi-vendor transceivers. Here is a list of tests that the IOL currently offers at the PHY level. Tx, Rx, BERT TX, Optical (FC-PI-5 clause 6) signal rate Avg launched power optical modulation rise & fall times(4G) transmitter eye mask Transmitter Jitter(4G0) transmitter wavefrom(8G) vertical eye closure penalty(16G) BERT FC-PI-5 Electrical BER Optical BER Electrical PI-5 clause 9 Nominal bit rate Voltage moduleation amplitude rise and fall times transmitter eye mask transmitter Jitter tramitter RMS common mode voltage Transmitter waveform distortion penalty(8G) FC return loss verification transmitter differential mode return loss tx common mode return loss rx differential mode return loss rx common mode return loss (16G) transmitter differential to common mode coversion ration(8&16G) rx differential to common mode conversion ratio(8&16G) Maybe we want to test primitives and primitive sequences? or do we want to test higher level messaging? Transmit : Transceiver Optical : eyemask. Calibration of test signal could take ~6hrs worst case) Then it would be ~10-15minutes per DUT Amplitude - eye diagram. ~10minutes per transceiver. It uses the same signal, but different pattern(PRBs) Jitter - eye diagram. ~10Min per transceiver. Same signal, different pattern Electrical: same tests, same time Equipment needed : Wave form Analyzer, Clock recovery unit, pattern generator, optical demux, Electrical would require pattern generator Receiver: Tranceiver Electrical : Module electrical output (Optical in-Electrical out ) same ~6hr calibration, 15minutes per DUT equipment : pattern generator with jitter capabilities and equalization settings Host/NIC Transmitter eye diagram and jitter need access to pattern generation on host/NIC for transmitter testing. 15minutes per DUT BER needs access to loopback on NIC/host and would require ~6hr calibration, 15minutes per DUT Equipment needed : pattern generator would we want to use onboard BER tests??? Keysite - supports IOL - willing to participate. Need to commit to xmit power FC5 clause 6 SAnBlaze no 25G Target in June.