Description by backtotheoffice
Wired PCI Express 3.0 Fiber 10000 Mbit/s Internal iWARP/RDMAiWARP delivers converged, low-latency fabric services to data centers through Remote Direct Memory Access (RDMA) over Ethernet. The key iWARP components that deliver low-latency are Kernel Bypass, Direct Data Placement, and Transport Acceleration.Intel® Data Direct I/O Technology Intel® Data Direct I/O Technology is a platform technology that improves I/O data processing efficiency for data delivery and data consumption from I/O devices.
With Intel DDIO, Intel® Server Adapters and controllers talk directly to the processor cache without a detour via system memory, reducing latency, increasing system I/O bandwidth, and reducing power consumption.PCI-SIG* SR-IOV Capable Single-Root I/O Virtualization (SR-IOV) involves natively (directly) sharing a single I/O resource between multiple virtual machines. SR-IOV provides a mechanism by which a Single Root Function (for example a single Ethernet Port) can appear to be multiple separate physical devices.Intel® Ethernet Power Management Intel® Ethernet Power Management Technology provides solutions to common power management approaches by reducing idle power, reducing capacity and power as a function of demand, operating at maximum energy efficiency whenever possible, and enabling functionality only when needed.Flexible Port Partitioning Flexible Port Partitioning (FPP) technology utilizes industry standard PCI SIG SR-IOV to efficiently divide your physical Ethernet device into multiple virtual devices, providing Quality of Service by ensuring each process is assigned to a Virtual Function and is provided a fair share of the bandwidth.Virtual Machine Device Queues (VMDq)Virtual Machine Device Queues (VMDq) is a technology designed to offload some of the switching done in the VMM (Virtual Machine Monitor) to networking hardware specifically designed for this function.
VMDq drastically reduces overhead associated with I/O switching in the VMM which greatly improves throughput and overall system performance Ports & interfaces PCI version 3.0 Fiber ports quantity 2 Fiber optic connector SFP+ Ethernet LAN (RJ-45) ports 2 Interface Fiber Host interface PCI Express Connectivity technology Wired Network LAN controller Intel® X710 Maximum operating distance 10 m Quality of Service (QoS) support Yes Fiber ethernet cabling technology 10GBASE-LR, 10GBASE-SR Ethernet LAN data rates 10,1000 Mbit/s Maximum data transfer rate 10000 Mbit/s Design Certification FCC A, UL, CE, VCCI, BSMI, CTICK, KCC LED indicators Yes Product colour Black, Green, Stainless steel Internal Yes System requirements Compatible operating systems https://www.intel.com/content/www/us/en/support/articles/000025890/network-and-i-o/ethernet-products.html Operational conditions Operating relative humidity (H-H) 0 - 90% Storage temperature (T-T) -40 - 70 °C Operating temperature (T-T) 0 - 55 °C Weight & dimensions Depth 69 mm Width 167 mm Packaging data Quantity 1 Logistics data Harmonized System (HS) code 85176990 Other features Product codename Fortville Product series 700 Series Network Adapters (up to 40 GbE) Product family Intel 10 Gigabit server adapter Launch date Q4'14 Status Launched Last change 64826824 Network interface card type Server Product brief URL http://www.intel.com/content/dam/www/public/us/en/documents/product-briefs/ethernet-x710-brief.pdf Storage Over Ethernet iSCSI, NFS Network interface card cable medium Copper Target market Artificial Intelligence, High Performance Computing Intelligent Offloads Yes Intel Virtualization Technology for Connectivity (VT-c) Yes Interface type PCIe v3.0 (8.0 GT/s) Processor family 700 Network Adapters (up to 40 GbE)-700 Network Adapters (up to 40 GbE) Controller type Intel® Ethernet Controller X710 Cabling type SFP+ Direct Attached Twinaxial Cabling up to 10m Low halogen options available No Storage-over-ethernet Yes On-chip QoS and Traffic Management Yes Speed & slot width 8.0 GT/s, x8 Lane Conflict-Free Yes Ethernet adapter ARK ID 83964 Intel Virtual Machine Device Queues (VMDq) Yes Intel Flexible Port Partitioning Yes Fiber Channel over Ethernet No Intel Ethernet Power Management Yes Export Control Classification Number (ECCN) 5A991 Commodity Classification Automated Tracking System (CCATS) NA Product type Network Interface Card PCI-SIG* SR-IOV Capable Yes Bracket height Low-Profile (LP) / Full-Height (FH) Intel Data Direct I/O Technology Yes Market segment Server Cable type SFP+ Direct Attached Twinaxial Cabling up to 10m Data transfer rate 8 GT/s leaflet
Description by computersdeal
iWARP/RDMAiWARP delivers converged. low-latency fabric services to data centers through Remote Direct Memory Access (RDMA) over Ethernet. The key iWARP components that deliver low-latency are Kernel Bypass. Direct Data Placement. and Transport Acceleration.Intel® Data Direct I/O Technology Intel® Data Direct I/O Technology is a platform technology that improves I/O data processing efficiency for data delivery and data consumption from I/O devices.
With Intel DDIO. Intel® Server Adapters and controllers talk directly to the processor cache without a detour via system memory. reducing latency. increasing system I/O bandwidth. and reducing power consumption.PCI-SIG* SR-IOV Capable Single-Root I/O Virtualization (SR-IOV) involves natively (directly) sharing a single I/O resource between multiple virtual machines. SR-IOV provides a mechanism by which a Single Root Function (for example a single Ethernet Port) can appear to be multiple separate physical devices.Intel® Ethernet Power Management Intel® Ethernet Power Management Technology provides solutions to common power management approaches by reducing idle power.
reducing capacity and power as a function of demand. operating at maximum energy efficiency whenever possible. and enabling functionality only when needed.Flexible Port Partitioning Flexible Port Partitioning (FPP) technology utilizes industry standard PCI SIG SR-IOV to efficiently divide your physical Ethernet device into multiple virtual devices. providing Quality of Service by ensuring each process is assigned to a Virtual Function and is provided a fair share of the bandwidth.Virtual Machine Device Queues (VMDq)Virtual Machine Device Queues (VMDq) is a technology designed to offload some of the switching done in the VMM (Virtual Machine Monitor) to networking hardware specifically designed for this function.
VMDq drastically reduces overhead associated with I/O switching in the VMM which greatly improves throughput and overall system performance
