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intel® Omni-path Fabric Edge Switches,an Element Of The Intel® Scalable System Framework, Are Part Of An End-to-end Product Family For Hpc Fabrics That Delivers High Performance With Breakthrough Value-intel® Omni-path Architecture (intel® Opa) Builds On Proven Technologies From Intel® True Scale Architecture, The Cray Aries Interconnect, And Open Source Software To Provide An Evolutionary On-ramp To Revolutionary New Fabric Capabilities.higher Performance At Lower Costintel® Omni-path Edge Switches Deliver 100 Gbps Port Bandwidth With Latency That Stays Low Even At Extreme Scale. Second Generation Intel Fabric Switch Silicon, With Market Leading 48port Radix, These Switches Can Lower Fabric Acquisition Costs By As Much As 50 Percent, While Simultaneously Reducing Space And Power Requirements. I With These Savings, You Can Potentially Achieve Higher Total Cluster Performance Within The Same Hardware Budget To Expand And Accelerate Your Research.flexible Fabrics At Every Scaleintel® Omni-path Fabric Edge Switches Support Hpc Clusters Of All Sizes, From Entry-level Systems To Supercomputers With Tens Of Thousands Of Server Nodes. You Can Use These Switches In Combination With Intel® Omni-path Director Class Switches To Build Low-latency, Multi-tier Fabrics With An Exceptional Set Of Features For High-speed Networking.high Availabilityintel® Omni-path Fabric Edge Switches Provide Integrated Support For High Availability With Advanced Features Such As Power, Component-level Diagnostics And Alarming, And Out-of-band Management. Innovative Features Take Fabric Resilience And Availability To New Heights Without Sacrificing Performance.packet Integrity Protection (pip), For Example, Provides High Packet Reliability With Latency-free Error Checking And Link-level Recovery. Dynamic Lane Scaling (dls) Maintains 75 Percent Of Linkbandwidth If A Physical Lane Fails, So Hpc Workloads Can Complete Gracefully To Keep Project Efforts On Track.
intel® Omni-path Fabric Edge Switches,an Element Of The Intel® Scalable System Framework, Are Part Of An End-to-end Product Family For Hpc Fabrics That Delivers High Performance With Breakthrough Value-intel® Omni-path Architecture (intel® Opa) Builds On Proven Technologies From Intel® True Scale Architecture, The Cray Aries Interconnect, And Open Source Software To Provide An Evolutionary On-ramp To Revolutionary New Fabric Capabilities.higher Performance At Lower Costintel® Omni-path Edge Switches Deliver 100 Gbps Port Bandwidth With Latency That Stays Low Even At Extreme Scale. Second Generation Intel Fabric Switch Silicon, With Market Leading 48port Radix, These Switches Can Lower Fabric Acquisition Costs By As Much As 50 Percent, While Simultaneously Reducing Space And Power Requirements. I With These Savings, You Can Potentially Achieve Higher Total Cluster Performance Within The Same Hardware Budget To Expand And Accelerate Your Research.flexible Fabrics At Every Scaleintel® Omni-path Fabric Edge Switches Support Hpc Clusters Of All Sizes, From Entry-level Systems To Supercomputers With Tens Of Thousands Of Server Nodes. You Can Use These Switches In Combination With Intel® Omni-path Director Class Switches To Build Low-latency, Multi-tier Fabrics With An Exceptional Set Of Features For High-speed Networking.high Availabilityintel® Omni-path Fabric Edge Switches Provide Integrated Support For High Availability With Advanced Features Such As Power, Component-level Diagnostics And Alarming, And Out-of-band Management. Innovative Features Take Fabric Resilience And Availability To New Heights Without Sacrificing Performance.packet Integrity Protection (pip), For Example, Provides High Packet Reliability With Latency-free Error Checking And Link-level Recovery. Dynamic Lane Scaling (dls) Maintains 75 Percent Of Linkbandwidth If A Physical Lane Fails, So Hpc Workloads Can Complete Gracefully To Keep Project Efforts On Track.
intel® Omni-path Fabric Edge Switches,an Element Of The Intel® Scalable System Framework, Are Part Of An End-to-end Product Family For Hpc Fabrics That Delivers High Performance With Breakthrough Value-intel® Omni-path Architecture (intel® Opa) Builds On Proven Technologies From Intel® True Scale Architecture, The Cray Aries Interconnect, And Open Source Software To Provide An Evolutionary On-ramp To Revolutionary New Fabric Capabilities.higher Performance At Lower Costintel® Omni-path Edge Switches Deliver 100 Gbps Port Bandwidth With Latency That Stays Low Even At Extreme Scale. Second Generation Intel Fabric Switch Silicon, With Market Leading 48port Radix, These Switches Can Lower Fabric Acquisition Costs By As Much As 50 Percent, While Simultaneously Reducing Space And Power Requirements. I With These Savings, You Can Potentially Achieve Higher Total Cluster Performance Within The Same Hardware Budget To Expand And Accelerate Your Research.flexible Fabrics At Every Scaleintel® Omni-path Fabric Edge Switches Support Hpc Clusters Of All Sizes, From Entry-level Systems To Supercomputers With Tens Of Thousands Of Server Nodes. You Can Use These Switches In Combination With Intel® Omni-path Director Class Switches To Build Low-latency, Multi-tier Fabrics With An Exceptional Set Of Features For High-speed Networking.high Availabilityintel® Omni-path Fabric Edge Switches Provide Integrated Support For High Availability With Advanced Features Such As Power, Component-level Diagnostics And Alarming, And Out-of-band Management. Innovative Features Take Fabric Resilience And Availability To New Heights Without Sacrificing Performance.packet Integrity Protection (pip), For Example, Provides High Packet Reliability With Latency-free Error Checking And Link-level Recovery. Dynamic Lane Scaling (dls) Maintains 75 Percent Of Linkbandwidth If A Physical Lane Fails, So Hpc Workloads Can Complete Gracefully To Keep Project Efforts On Track.
intel® Omni-path Fabric Edge Switches,an Element Of The Intel® Scalable System Framework, Are Part Of An End-to-end Product Family For Hpc Fabrics That Delivers High Performance With Breakthrough Value-intel® Omni-path Architecture (intel® Opa) Builds On Proven Technologies From Intel® True Scale Architecture, The Cray Aries Interconnect, And Open Source Software To Provide An Evolutionary On-ramp To Revolutionary New Fabric Capabilities.
the Intel® Omni-path Edge Switch Consists Of Two Models Supporting 100 Gb/s For All Ports, An Entry-level 24-port Switch For Small Clusters And A 48-port Switch. The Larger Switch, In Addition To Enabling A 48-port Fabric In 1u, Can Be Combined With Other Edge Switches And Directors To Build Much Larger Multitier Fabrics. These Intel® Omni-path Edge Switches Are Members Of The Intel® Omni-path Fabric 100 Series Of Switches, Host Adapters, And Software Delivering An Exceptional Set Of High-speed Networking Features And Functions.
intel® Omni-path Director Class Switches, An Element Of The Intel® Scalable System Framework, Are Part Of An End-to-end Product Family For Hpc Fabrics That Delivers High Performance With Breakthrough Cost Models. Intel® Omni-path Architecture (intel® Opa) Builds On Proven Technologies From Intel® True Scale Architecture, The Cray Aries Interconnect, And Open Source Software To Provide An Evolutionary On- Ramp To Revolutionary New Fabric Capabilities.higher Performance At Lower Cost Intel® Omni-path Director Class Switches Deliver 100 Gbps Port Bandwidth With Latency That Stays Low Even At Extreme Scale. Based On New Intel 48-port Switch Silicon, These Switches Can Lower Fabric Acquisition Costs By As Much As 50 Percent, While Simultaneously Reducing Space And Power Requirements. With These Savings, You Can Potentially Achieve Higher Total Cluster Performance Within The Same Hardware Budget To Expand And Accelerate Your Research.flexible Fabrics At Every Scale Intel® Omni-path Director Class Switches Support Hpc Clusters Of All Sizes, From Mid- Level Clusters To Supercomputers With Tens Of Thousands Of Servers. You Can Use These Switches In Combination With Intel® Omni- Path Edge Switches To Build Low-latency, Multi-tier Fabrics With An Exceptional Set Of Features For High-speed Networking.
intel® Omni-path Director Class Switches, An Element Of The Intel® Scalable System Framework, Are Part Of An End-to-end Product Family For Hpc Fabrics That Delivers High Performance With Breakthrough Cost Models. Intel® Omni-path Architecture (intel® Opa) Builds On Proven Technologies From Intel® True Scale Architecture, The Cray Aries Interconnect, And Open Source Software To Provide An Evolutionary On- Ramp To Revolutionary New Fabric Capabilities.higher Performance At Lower Cost Intel® Omni-path Director Class Switches Deliver 100 Gbps Port Bandwidth With Latency That Stays Low Even At Extreme Scale. Based On New Intel 48-port Switch Silicon, These Switches Can Lower Fabric Acquisition Costs By As Much As 50 Percent, While Simultaneously Reducing Space And Power Requirements. With These Savings, You Can Potentially Achieve Higher Total Cluster Performance Within The Same Hardware Budget To Expand And Accelerate Your Research.flexible Fabrics At Every Scale Intel® Omni-path Director Class Switches Support Hpc Clusters Of All Sizes, From Mid- Level Clusters To Supercomputers With Tens Of Thousands Of Servers. You Can Use These Switches In Combination With Intel® Omni- Path Edge Switches To Build Low-latency, Multi-tier Fabrics With An Exceptional Set Of Features For High-speed Networking.
intel® Omni-path Fabric Edge Switches,an Element Of The Intel® Scalable System Framework, Are Part Of An End-to-end Product Family For Hpc Fabrics That Delivers High Performance With Breakthrough Value-intel® Omni-path Architecture (intel® Opa) Builds On Proven Technologies From Intel® True Scale Architecture, The Cray Aries Interconnect, And Open Source Software To Provide An Evolutionary On-ramp To Revolutionary New Fabric Capabilities.higher Performance At Lower Costintel® Omni-path Edge Switches Deliver 100 Gbps Port Bandwidth With Latency That Stays Low Even At Extreme Scale. Second Generation Intel Fabric Switch Silicon, With Market Leading 48port Radix, These Switches Can Lower Fabric Acquisition Costs By As Much As 50 Percent, While Simultaneously Reducing Space And Power Requirements. I With These Savings, You Can Potentially Achieve Higher Total Cluster Performance Within The Same Hardware Budget To Expand And Accelerate Your Research.flexible Fabrics At Every Scaleintel® Omni-path Fabric Edge Switches Support Hpc Clusters Of All Sizes, From Entry-level Systems To Supercomputers With Tens Of Thousands Of Server Nodes. You Can Use These Switches In Combination With Intel® Omni-path Director Class Switches To Build Low-latency, Multi-tier Fabrics With An Exceptional Set Of Features For High-speed Networking.high Availabilityintel® Omni-path Fabric Edge Switches Provide Integrated Support For High Availability With Advanced Features Such As Power, Component-level Diagnostics And Alarming, And Out-of-band Management. Innovative Features Take Fabric Resilience And Availability To New Heights Without Sacrificing Performance.packet Integrity Protection (pip), For Example, Provides High Packet Reliability With Latency-free Error Checking And Link-level Recovery. Dynamic Lane Scaling (dls) Maintains 75 Percent Of Linkbandwidth If A Physical Lane Fails, So Hpc Workloads Can Complete Gracefully To Keep Project Efforts On Track.
intel® Omni-path Fabric Edge Switches,an Element Of The Intel® Scalable System Framework, Are Part Of An End-to-end Product Family For Hpc Fabrics That Delivers High Performance With Breakthrough Value-intel® Omni-path Architecture (intel® Opa) Builds On Proven Technologies From Intel® True Scale Architecture, The Cray Aries Interconnect, And Open Source Software To Provide An Evolutionary On-ramp To Revolutionary New Fabric Capabilities.higher Performance At Lower Costintel® Omni-path Edge Switches Deliver 100 Gbps Port Bandwidth With Latency That Stays Low Even At Extreme Scale. Second Generation Intel Fabric Switch Silicon, With Market Leading 48port Radix, These Switches Can Lower Fabric Acquisition Costs By As Much As 50 Percent, While Simultaneously Reducing Space And Power Requirements. I With These Savings, You Can Potentially Achieve Higher Total Cluster Performance Within The Same Hardware Budget To Expand And Accelerate Your Research.flexible Fabrics At Every Scaleintel® Omni-path Fabric Edge Switches Support Hpc Clusters Of All Sizes, From Entry-level Systems To Supercomputers With Tens Of Thousands Of Server Nodes. You Can Use These Switches In Combination With Intel® Omni-path Director Class Switches To Build Low-latency, Multi-tier Fabrics With An Exceptional Set Of Features For High-speed Networking.high Availabilityintel® Omni-path Fabric Edge Switches Provide Integrated Support For High Availability With Advanced Features Such As Power, Component-level Diagnostics And Alarming, And Out-of-band Management. Innovative Features Take Fabric Resilience And Availability To New Heights Without Sacrificing Performance.packet Integrity Protection (pip), For Example, Provides High Packet Reliability With Latency-free Error Checking And Link-level Recovery. Dynamic Lane Scaling (dls) Maintains 75 Percent Of Linkbandwidth If A Physical Lane Fails, So Hpc Workloads Can Complete Gracefully To Keep Project Efforts On Track.
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