1 / 23

Infiniband in the Data Center

Infiniband in the Data Center. Steven Carter Cisco Systems stevenca@cisco.com. Makia Minich, Nageswara Rao Oak Ridge National Laboratory {minich,rao}@ornl.gov. Agenda. Overview The Good, The Bad, and The Ugly

gloria
Download Presentation

Infiniband in the Data Center

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Infiniband in the Data Center Steven Carter Cisco Systems stevenca@cisco.com • Makia Minich, Nageswara Rao • Oak Ridge National Laboratory • {minich,rao}@ornl.gov

  2. Agenda • Overview • The Good, The Bad, and The Ugly • IB LAN Case Study: Oak Ridge National Laboratory Center for Computational Sciences • IB WAN Case Study: Department of Energy’s UltraScience Network

  3. Overview • Data movement requirements are exploding in HPC data centers. • The requirement to move 100’s of GB/s around the data center requires something more than is being provided in the Ethernet community • TCP/IP performs poorly in the wide-area on the high-bandwidth links required to move data between data centers • This is a high-level overview of the pros and cons of using Infiniband in the Data Center and two case studies to reinforce them

  4. Agenda • Overview • The Good, The Bad, and The Ugly • IB LAN Case Study: Oak Ridge National Laboratory Center for Computational Sciences • IB WAN Case Study: Department of Energy’s UltraScience Network

  5. The Good • Cool Name (Marketing gets an A+ -- who doesn’t want infinite bandwidth?) • Unified Fabric/IO Virtualization: • Low-latency interconnect - nanoseconds, not low milliseconds - not necessarily important in a data center • Storage – Using SRP (SCSI RDMA Protocol) or iSER (iSCSI Extension for RDMA) • IP – Using IPoIB, newer versions run over Connected Mode giving better throughput • Gateways – Gateways give access to legacy Ethernet (careful) and Fibre Channel networks

  6. The Good (Cont.) • Faster link speeds: • 1x Single Data Rate (SDR) = 2.5 Gb/s (2 Gb/s with 8b/10b signalling) • 4 1x links can be aggregated into a single 4x link • 3 4x links can be aggregated into a single 12x link (single 12x link also available) • Double Data Rate (DDR) currently available, Octo Data Rate (ODR) on the horizon • Many link speeds available: 8Gb/s, 16Gb/s, 24 Gb/s, 32Gb/s, 48 Gb/s, etc.

  7. The Good (Cont.) • HCA does much of the heavy lifting: • Much of the protocol is done on the Host Channel Adapter (HCA) freeing the CPU • Remote Direct Memory Access (RDMA) gives the ability to transfer data between hosts with very little CPU overhead • RDMA capability is EXTREMELY important because it provides significantly greater capability from the same hardware

  8. The Good (Cont.) • Nearly 10x less cost for similar bandwidth: • Because of its simplicity, IB switches cost less. Oddly enough, IB HCAs are more complex than 10G NICs, but are also less expensive. • Roughly $500 per port in the switch and $500 for a dual port DDR HCA • Because of RDMA, there is a cost savings in infrastructure as well (i.e. you can do more with fewer hosts) • Higher port density switches: • Switches available with 288 (or more) full-rate ports in a single chassis

  9. The Bad • IB sounds too much like IP (Can quickly degrade into a “Who’s on first” routine) • IB is not well understood by networking folks • Lacks some of the features of Ethernet important in the Data Center: • Router – no way to natively connect two separate fabrics - The IB Subnet Manager (SM) is integral to the operation of the network (detects hosts, programs routes into the switch, etc). Without a router, you cannot have two different SMs for different operational or administrative domains (Can be worked around at the application layer). • Firewall – No way to dictate who talks to whom by protocol (partitions exist, but are too course grained) • Protocol Analyzers - They exist but are hard to come by, difficult to “roll your own” because of the protocol is embedded in the HCA

  10. The Ugly • Cabling options: • Heavy gage cables with clunky CX4 connectors • Short distance (< 20 meters) • If mishandled, they have a propensity to fail • Heavy connectors can become disengaged • Electrical to optical converter • Long distance (up to 150 meters) • Uses multi-core ribbon fiber (hard to debug) • Expensive • Heavy connectors can become disengaged

  11. The Ugly (Continued) • Cabling options: • Electrical to optical converter built on the cable • Long distance (up to 100 meters) • Uses multi-core ribbon fiber (hard to debug) • More cost effective than other solutions • Heavy connectors can become disengaged

  12. Agenda • Overview • The Good, The Bad, and The Ugly • IB LAN Case Study: Oak Ridge National Laboratory Center for Computational Sciences • IB WAN Case Study: Department of Energy’s UltraScience Network

  13. Case Study: ORNL Center for Computational Sciences (CCS) • The Department of Energy established the Leadership Computing Facility at ORNL’s Center for Computational Sciences to field a 1PF supercomputer • The design chosen, the Cray XT series, includes an internal Lustre filesystem capable of sustaining reads and writes of 240GB/s • The problem with making the filesystem part of the machine is that it limits the flexibly of the Lustre filesystem and increases the complexity of the Cray • The problem with decoupling the filesystem from the machine is the high cost involved with to connect it via 10GE at the required speeds

  14. CCS IB Network Roadmap Summary Ethernet core scaled to match wide-area connectivity and archive Infiniband core scaled to match central file system and data transfer Lustre Baker Gateway Ethernet [O(10GB/s)] Infiniband [O(100GB/s)] Jaguar High-Performance Storage System (HPSS) Viz

  15. Voltaire 9024 Spider (Linux Cluster) Rizzo (XT3) XT3 LAN Testing • ORNL showed the first successful infiniband implementation on the XT3 • Using Infiniband in the XT3’s I/O nodes running a Lustre Router resulted in a > 50% improvement in performance and a significant decrease in CPU utilization

  16. Observations • XT3's performance is good (better than 10GE) for RDMA • XT3's poor performance compared to the generic X86_64 host likely a result of PCI-X HCA (known to be sub-optimal) • In its role as a Lustre router, IB allows significantly better performance per I/O node allowing CCS to achieve the required throughput with fewer nodes than would be needed using 10GE

  17. Agenda • Overview • The Good, The Bad, and The Ugly • IB LAN Case Study: Oak Ridge National Laboratory Center for Computational Sciences • IB WAN Case Study: Department of Energy’s UltraScience Network

  18. 4x Infiniband SDR OC-192 SONET Cluster End-to-End IB over WAN testing Ciena CD-CI (SNV) • Placed 2 x Obsidian Longbow devices between Voltaire 9024 and Voltaire 9288 • Provisioned loopback circuits of various lengths on the DOE UltraScience Network and ran test. • RDMA Test Results: Local: 7.5Gbps (Longbow to Longbow) ORNL <-> ORNL (0.2mile): 7.5Gbps ORNL <-> Chicago (1400miles): 7.46Gbps ORNL <-> Seattle (6600 miles): 7.23Gbps ORNL <-> Sunnyvale (8600 miles): 7.2Gbps DOE UltraScience Network Obsidian Longbow Obsidian Longbow Ciena CD-CI (ORNL) Voltaire 9288 Voltaire 9024 20 81

  19. Sunnyvale loopback (8600 miles) – RC problem

  20. Observations • The Obsidian Longbows appear to be extending sufficient link-level credits • Native IB transports does not appear to suffer from the same wide-area shortcomings as TCP (i.e. Full rate with no tuning) • With the Arbel based HCAs, we saw problems: • RC only performs well at large messages sizes • There seems to be a maximum number of messages allowed in flight (~250) • RC performance does not increase rapidly enough even when message cap is not an issue • The problems seem to be fixed with the new Hermon-based HCAs…

  21. Obsidian’s Results – Arbel vs. Hermon Arbel to Hermon Hermon to Arbel

  22. Summary • Infiniband has the potential to make a great data center interconnect because it provides a unified fabric, faster link speeds, mature RDMA implementation, and lower cost • There does not appear to be the same intrinsic problem with IB in the wide-area as there is with IP/Ethernet, making IB a good candidate to transfer data between data centers

  23. The End Questions? Comments? Criticisms? For more information: • Steven Carter • Cisco Systems • stevenca@cisco.com • Makia Minich, Nageswara Rao • Oak Ridge National Laboratory • {minich,rao}@ornl.gov

More Related