improve Application Efficiency And Network Performance With Innovative And Versatile Capabilities That Optimize High-performance Server Workloads Such As Nfv, Storage, Hpc-ai And Hybrid Cloud.performance For Cloud Applicationsdelivers The Bandwidth And Increased Application Throughput Required For Demanding Cloud Workloads Including Edge Services, Web Servers, Database Applications, Caching Servers, And Storage Targets. Application Device Queues (adq) Improves Application Response Time Predictability Using Advanced Traffic-steering Technology Dynamic Device Personalization (ddp) Enhances Packet Classification Capabilities, To Deliver Up To 3x Throughput Improvement For Some Cloud Workloads Supports Both Rdma Iwarp And Rocev2 For High-speed, Low-latency Connectivity To Storage Targetsoptimizations For Communications Workloadsprovides Packet Classification And Sorting Optimizations For High-bandwidth Network And Communications Workloads, Including Mobile Core, 5g Ran, And Network Appliances. Dynamic Device Personalization (ddp) Supports Existing And New Communications-specific Protocols Improving Packet-processing Efficiency Up To 3x For Some Network Functions Virtualization (nfv) Workloads Ieee 1588 Precision Time Protocol (ptp) V2enables Precise Clock Synchronization Across The 5g Ran Deployments Enhanced Data Plane Development Kit (dpdk) Support Increases Packet-processing Speedsversatile Port Configurations With Epcte810-cqda1 And -cqda2 Adapters Support A Wide Range Of System Configurations To Meet Customer Needs And Workload Requirements. The Many Port And Speed Combinations Available Simplify Validation And Deployment. Using Epct, These Adapters Can Be Programmed To Act As Many Different Physical Network Adapters, With A Maximum Throughput Of 100gbps.all 800 Series Products Include These Technologies | Greater Predictability At Scaleas Modern Data Centers Scale, A Key Challenge Is To Provide Scalable, Predictable Application-level Performance. Application Device Queues (adq) Technology Improves Performance Scalability And Predictability By Dedicating Queues To Key Workloads, Delivering Predictable High Performance Through Dramatically Reduced Jitter.
Intel® Ethernet Network Adapter E810-CQDA1 - Efficient workload-optimized performance at Ethernet speeds of 1 to 100Gbps
improve Application Efficiency And Network Performance With Innovative And Versatile Capabilities That Optimize Server Workloads Such As Network Functions Virtualizations (nfv), Storage, Hpc-ai And Hybrid Cloud.the Ocp Nic 3.0 Specification Defines A Standardized Design For A New Generation Of Network Adapters. Simple And Straightforward Form Factors, Clear Manageability Requirements, And Improved Serviceability Help Simplify Deployment For Current And Emerging Capabilities.performance For Cloud Applicationsdelivers The Bandwidth And Increased Application Throughput Required For Demanding Cloud Workloads Including Edge Services, Web Servers, Database Applications, Caching Servers, And Storage Targets. Application Device Queues (adq) Improves Application Response Time Predictability Using Advanced Traffic-steering Technology Dynamic Device Personalization (ddp) Enhances Packet Classification Capabilities, To Deliver Up To 3x Throughput Improvement For Some Cloud Workloads Supports Both Rdma Iwarp And Rocev2 For High-speed, Low-latency Connectivity To Storage Targetsoptimizations For Communications Workloadsprovides Packet Classification And Sorting Optimizations For High-bandwidth Network And Communications Workloads, Including Mobile Core, 5g Ran, And Network Appliances. Dynamic Device Personalization (ddp) Supports Existing And New Communications-specific Protocols Improving Packet-processing Efficiency Up To 3x For Some Nfv Workloads Ieee 1588 Precision Time Protocol (ptp) V2 Support Enables Precise Clock Synchronization Across The 5g Ran Deployments Enhanced Data Plane Development Kit (dpdk) Support Increases Packet-processing Speedsversatile Port Configurations With Epcte810-cqda1 And -cqda2 Adapters For Ocp 3.0 Support A Wide Range Of System Configurations To Meet Customer Needs And Workload Requirements. The Many Port And Speed Combinations Available Simplify Validation And Deployment.all 800 Series Products Include These Technologies | Greater Predictability At Scaleas Modern Data Centers Scale, A Key Challenge Is To Provide Scalable, Predictable Application-level Performance. Application Device Queues (adq) Technology Improves Performance Scalability And Predictability By Dedicating Queues To Key Workloads, Delivering Predictable High Performance Through Dramatically Reduced Jitter.increasing The Predictability Of Application Response Times By Lowering Jitter Enables More Compute Servers To Be Assigned To A Task And Can Allow More Users To Access The System, Providing A Better End-user Experience. Even Applications That Are Not Large Scale Can Benefit From Higher Consistency, Enabling Them To Meet Service-level Agreements (slas) More Easily.adq Enables Application-specific Data Steering, Signaling, And Rate Limiting Using An Optimized Application Thread To Device Data Path. This Ability To Dedicate Queues And Shape Network Traffic Not Only Increases Performance, It Reduces Latency And Improves Throughput.
improve Application Efficiency And Network Performance With Innovative And Versatile Capabilities That Optimize High-performance Server Workloads Such As Nfv, Storage, Hpc-ai And Hybrid Cloud. Performance For Cloud Applicationsdelivers The Bandwidth And Increased Application Throughput Required For Demanding Cloud Workloadsincluding Edge Services, Web Servers, Database Applications, Caching Servers, And Storage Targets. Application Device Queues (adq) Improves Application Response Times Predictability Using Advanced Traffic-steering Technology Dynamic Device Personalization (ddp) Enhances Packet Classification Capabilities, To Deliver Up To 3x Throughput Improvement For Some Cloud Workloads Supports Both Rdma Iwarp And Rocev2 For High-speed, Low-latency Connectivity To Storage Targets Optimizations For Communications Workloadsprovides Packet Classification And Sorting Optimizations For High-bandwidth Network And Communications Workloads, Including Mobile Core, 5g Ran, And Network Appliances. Dynamic Device Personalization (ddp) Supports Existing And New Communications-specific Protocols Improving Packet-processing Efficiency Up To 3x For Some Network Functions Virtualization (nfv) Workloads Ieee 1588v2 Precision Time Protocol Support Enables Precise Clock Synchronization Across The 5g Ran Deployments Enhanced Data Plane Development Kit (dpdk) Support Increases Packet-processing Speeds Versatile Port Configurations With Epcte810-cqda1 And -cqda2 Adapters Support A Wide Range Of System Configurations To Meet Customer Needs And Workload Requirements. The Many Port And Speed Combinations Available Simplify Validation And Deployment. Intel® Ethernet 800 Series Network Adapters Include These Technologies: Application Device Queues (adq) For Predictability At Scale As Modern Data Centers Scale, A Key Challenge Is To Provide Scalable, Predictable Application-level Performance. Adq Technology Improves Performance Scalability And Predictability By Dedicating Queues To Key Workloads, Delivering Predictable High Performance Through Dramatically Reduced Jitter. Increasing The Predictability Of Application Response Times By Lowering Jitter Enables More Compute Servers To Be Assigned To A Task And Can Allow More Users To Access The System, Providing A Better End-user Experience. Even Applications That Are Not Large Scale Can Benefit From Higher Consistency, Enabling Them To Meet Service-level Agreements (slas) More Easily. Adq Enables Application-specific Data Steering, Signaling, And Rate Limiting Using An Optimized Application Thread To Device Data Path. This Ability To Dedicate Queues And Shape Network Traffic Not Only Increases Performance, It Reduces Latency And Improves Throughput. Improve Packet Processing Efficiency With Dynamic Device Personalization (ddp) Ddp Customizable Packet Filtering, Along With Enhanced Dpdk, Support Advanced Packet Forwarding And Highly-efficient Packet Processing For Both Cloud And Nfv Workloads. Ddp Support Was First Introduced On The Intel Ethernet 700 Series With A Few Protocols That Could Be Added To The Default Set Defined In The Firmware. The Intel Ethernet 800 Series Firmware Loads An Enhanced Ddp Profile With Many Workload-specific Protocols At Driver Initialization For Greater Flexibility. When Multiple 800 Series Adapters Are Present In A System, The Pipeline On Each Adapter Can Be Programmed Independently With A Different Ddp Profile.
simplify Technology Transitions With The Intel® Ethernet Network Adapter X710-t2l And X710-t4l For Ocp 3.0. Autonegotiation Between Port Speeds Provides Maximum Flexibility In Dual And Quad-port 10gbase-t Configurations.these Low-power Adapters Also Support Energy Efficient Ethernet To Efficiently Reduce Power Consumption During Periods Of Low Data Activity.the X710-t2l And X710-t4l For Ocp 3.0 Are Part Of The Intel® Ethernet 700 Series, The Foundation For Server Connectivity; Providing Broad Interoperability, Critical Performance Optimizations, And Increased Agility For Communications, Cloud, And Enterprise It Network Solutions. Interoperability - Multiple Speeds And Media Types For Broad Compatibility Backed By Extensive Testing And Validation. Optimization - Intelligent Offloads And Accelerators To Unlock Network Performance In Servers With Intel® Xeon® Processors. Agility - Both Kernel And Data Plane Development Kit (dpdk) Drivers For Scalable Packet Processing.the Ocp Nic 3.0 Specification Defines A Standardized Design For A New Generation Of Network Adapters. Simple And Straightforward Form Factors, Clear Manageability Requirements, And Improved Serviceability Help Simplify Deployment For Current And Emerging Capabilities.all Intel® Ethernet 700 Series Network Adapters Include These Feature-rich Technologies:flexible And Scalable I/o For Virtualized Infrastructuresintel® Virtualization Technology (intel® Vt), Delivers Outstanding I/o Performance In Virtualized Server Environments.i/o Bottlenecks Are Reduced Through Intelligent Offloads, Enabling Near-native Performance And Vm Scalability. These Offloads Include Virtual Machine Device Queues (vmdq) And Flexible Port Partitioning Using Sr-iov With A Common Virtual Function Driver For Networking Traffic Per Virtual Machine (vm). Host-based Features Supported Include:vmdq For Emulated Path: Vmdq, Enables A Hypervisor To Represent A Single Network Port As Multiple Network Ports That Can Be Assigned To The Individual Vms. Traffic Handling Is Offloaded To The Network Controller, Delivering The Benefits Of Port Partitioning With Little To No Administrative Overhead By The It Staff.sr-iov For Direct Assignment: Adapter-based Isolation And Switching For Various Virtual Station Instances Enables Optimal Cpu Usage In Virtualized Environments. Up To 128 Virtual Functions (vfs), Each Vf Can Support A Unique And Separate Data Path For I/o Related Functions Within The Pci Express Hierarchy. Use Of Sr-iov With A Networking Device, For Example, Allows The Bandwidth Of A Single Port (function) To Be Partitioned Into Smaller Slices That Can Be Allocated To Specific Vms Or Guests, Via A Standard Interface.intel® Ethernet Adaptive Virtual Function (intel® Ethernet Avf): Customers Deploying Mass-scale Vms Or Containers For Their Network Infrastructure Now Have A Common Vf Driver. This Driver Eases Sr-iov Hardware Upgrades Or Changes, Preserves Base-mode Functionality In Hardware And Software, And Supports An Advanced Set Of Features In The Intel® Ethernet 700 Series.
high Performance Computing (hpc) Solutions Require The Highest Levels Ofperformance, Scalability, And Availability To Power Complex Application Workloads. Designed Specifically For Hpc, Intel® Omni-path Host Fabric Interface (hfi) Adapters, An Element Of The Intel® Scalable System Framework, Use An Advanced "on-load" Design That Automatically Scales Fabric Performance With Rising Server Core Counts, Making These Adapters Ideal For Today''s Increasingly Demanding Workloads.multiple Performance Levelstwo Intel® Omni-path Host Fabric Adapter Models Are Available To Help Fabric Designers Maximize Performance Versus Cost For Diverse Requirements. Thepcie X16 Model Supports The Full 100 Gbs Line Rate. The Pcie X8 Model Supports The Same 100 Gbps Link Rate, While The Narrower Pcie Connection Limits Actual Data Rates To 56 Gbps.advanced Quality Of Service (qos)intel Omni-path Host Fabric Interface Adapters Provide The Foundation For Powerful And Efficient Traffic Control. Data Is Segmented Into 65-bit Flow Control Digits (flits), Which Are Assembled Into Much Larger Link Transfer Packets (ltps) For Efficient Wire Transfer. By Managing Traffic At The Flit Level, Intel® Omni-path Architecture
300 X 50 X 1500MM 12IN X 2IN X 5FT
450 X 100 X 3000MM 18IN X 4IN X10FT
provides Wall-, Floor- Or Ceiling-based Copper Cable Routing, Allowing Organized Category Cable Bundling Within Your Data Center. Featureseliminate Cable Stress By Organizing Copper Cabling Through Your Data Center This Smartrack® Wire Mesh Cable Tray Is Easy To Install Along The Wall, Floor Or Ceiling Of Your Data Center. The Srwb18410str Is A Straight Section Measuring 3000 Millimeters Long, But You Can Cut It With Side-action Bolt Cutters To Fit Your Custom Specifications. It Also Measures 450 Millimeters Wide And 100 Millimeters High To Allow You To Neatly Bundle Network And Audio/video Cables. Constructed From High-strength Steel Wire Built To Last In Busy Environments The Black Powder-coated Wire Is Smooth And Rounded, Which Not Only Protects Cable Installers And It Personnel From Cutting Their Hands, But Also Prevents Cables From Fraying Along Sharp Edges. The Rounded Wire Also Prohibits Debris From Building Up On It In Dusty Network Closets And Industrial Spaces. Large Mesh Openings Allow You To Route Cables Through The Spaces If Needed. Designed To Give You Great Flexibility In Installation, Transportation And Storage The Srwb18410str Is Ideal For Data Centers, Network Closets And Some Industrial Areas In A Wide Variety Of Applications, Including Office Buildings, Shopping Centers, Schools, Hotels, Hospitals, Restaurants And Transportation Centers. Each Tray Can Be Stacked With Another For Multi-level Installations To Save Space During Transportation Or Storage.
Tripp Lite Wire Mesh Cable Tray - 150 x 100 x 3000 mm (6 in. x 4 in. x 10 ft.), 10 Pack - Cable Tray - Black Powder Coat - 10 - Steel - TAA Compliance
MFR: Netgear, Inc
Qty: 1
Part #: GS105NA