High Speed Optical Interconnect Project May08-06
Client: Lockheed Martin Team Information Client: Lockheed Martin Team Members Team Leader: Adam Jackson Communication Coordinator: Nick Ryan Bader Al-Sabah David Feely Richard Jones Faculty Advisor Dr. Ahmed Kamal Client Contacts Aaron Cordes Rick Stevens
Problem Statement At this time, the maximum real-world throughput of 10 Gbps network configurations is unknown.
Requirements Summarized Functional The network shall be implemented with 10 Gbps components. The team shall test the network to determine real throughput. Non-Functional Must be implemented before the class completes in May 2008. Must determine financial feasibility of fiber optic components.
Functional Continued The team shall test the network to determine real-world bandwidth. The team shall test the network to determine bandwidth efficiency. The team shall test the network to determine switch time. The team shall test the network to determine latency. The team shall test the network to determine quality of service.
Host System: Dell Optiplex 745 Capable of PCI-E x1/x4/x8/x16 Dual boot Red Hat 5 Windows XP Separate system needed for each node
Myricom 10G-PCIE-8A-R+E® Pluggable XFP optical interface 10GBASE-SR and –LR support x1/x4/x8 compatible 32 Gbps throughput Linux and Windows OS supported Source: Myricom website http://www.myricom.com/Myri-10G/NIC/10G-PCIE-8A-R.html
TigerSwitch™ 10G Standalone 8-port XFP 10G Managed Layer 2 switch Model Number: SMC8708L2 Supports up to 8 XFP ports Delivers 10-Gigabit Ethernet Switching fabric – 160Gbps AC Input – 100 to 240 V, 50 – 60 Hz, 2 A http://www.pcworld.com/product/pricing/prtprdid,9311286-sortby,retailer/pricing.html
XFP – 10 Gigabit Small Form Factor Pluggable Myricom 10G-XFP-SR 1-Port 10GBASE-SR (LC) XFP Transceiver Used for 10 Gbps connections http://ecx.images-amazon.com/images/I/11jHA98YEEL._AA160_.jpg
PCI-E Node-to-Node Configuration Testing will be completed with two systems directly connected Used for testing bandwidth and bandwidth efficiency Graphic inspired by previous HSOI team
PCI-E Switched Configuration Composed of three nodes and a Ethernet switch Used for testing switching time, latency, and quality of service Graphic inspired by previous HSOI team
Presented Hardware Setup (As recommended by Lockheed Martin.) NXB-10GXxR Intelligent NIC® 10 Gigabit Ethernet PCIe Adapter with pluggable XFP optical interface (http://www.netxen.com/products/boardsolutions/NXB-10GXxR.html) Node 1 Node 2 Node 3 TigerSwitch 10G 8-Port Standalone XFP 10Gigabit Ethernet Managed Layer 2 Switch SMC Networks, Inc.
Myricom 10G-PCIE-8A-R+E® Actual Hardware Setup Myricom 10G-PCIE-8A-R+E® 10 Gigabit Ethernet PCIe Adapter with pluggable XFP optical interface (http://www.myri.com/Myri-10G/10gbe_solutions.html) Node 1 Node 2 Node 3 TigerSwitch 10G 8-Port Standalone XFP 10Gigabit Ethernet Managed Layer 2 Switch SMC Networks, Inc.
Network Testing Software Network Traffic Generator Packet generation program Wireshark Packet capture/analysis program ping (replaced with tool we will write) Used as a latency measurement tool netperf/netserver Bandwidth measurement tool tcpdump Packet capture program
Performance Metrics Bandwidth Measurement Switching Time Measurement Channel Capacity Bandwidth Efficiency (Throughput) Switching Time Measurement Latency Measurement Quality of Service Measurement
General Test Plans Execute each batch test 5 times to ensure precise results Establish a 95% confidence interval Use both UDP and TCP protocols when possible
Presenting Test Results Bandwidth Compare link usage for each node under varying workload types Bandwidth Efficiency Show a comparison of the amount of OSI Layer 1 data sent for different OSI Layer 7 data block sizes Switching Time Compare switching time and link load for cases when 2 and 3 nodes are connected to the network
Presenting Test Results Latency Compare the latency between nodes under different network loads Quality of Service Show the amount data received from each sending node for each endpoint node over time
Deliverables The team shall present the chosen design solution to LM for approval before implementation. The team shall provide weekly reports to LM. The team shall present the test results to LM. The team shall deliver a final report and all documentation to LM. The team shall deliver the prototype to LM at the completion of this project. All deliverables shall be presented to Rick Stevens on or before April 25, 2008.
Implementation Report Budget Resolved CSG delivering systems Test software chosen Exploring software capabilities
Implementation Report (2/26) NICs Ordered & Received Fiber Optic Cables Received NIC Drivers installed Test Plans Written Test Utility Experimentation
Implementation Report (4/02) Tests are ready to be executed. Our PCIe x16 slot can’t run at x8 due to chipset support. Availability of new PCs unknown. Optical switch is unavailable.
Questions? ?