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{{amd title|Infinity Fabric}}[[File:amd infinity fiber.svg|right|300px]]
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{{amd title|Infinity Fabric}}[[File:amd infinity fabric.svg|right|300px]]
 
'''Infinity Fabric''' ('''IF''') is a system of transmissions and controls that underpin most of [[AMD]] recent microarchitectures for both CPU (i.e., {{amd|Zen|l=arch}}) and graphics (e.g., {{amd|Vega|l=arch}}), and any other additional accelerators they might add in the future. The interconnections were first announced and detailed in April 2017 by Mark Papermaster, AMD's SVP and CTO.
 
'''Infinity Fabric''' ('''IF''') is a system of transmissions and controls that underpin most of [[AMD]] recent microarchitectures for both CPU (i.e., {{amd|Zen|l=arch}}) and graphics (e.g., {{amd|Vega|l=arch}}), and any other additional accelerators they might add in the future. The interconnections were first announced and detailed in April 2017 by Mark Papermaster, AMD's SVP and CTO.
  
The Infinity Fabric consists of two separate communication interconnections: Infinity '''Scalable Data Fabric''' ('''SDF''') and the Infinity '''Scalable Control Fabric''' ('''SCF'''). The SDF is the primary means by which data flows around the system between end point (e.g. [[NUMA node]]s, [[PHY]]s) whereas the SCF handles the transmission of the many miscellaneous system control signals. With those two interconnections, AMD can efficiently scale up many of the basic computing blocks.
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The Infinity Fabric consists of two separate communication interconnections: Infinity '''Scalable Data Fabric''' ('''SDF''') and the Infinity '''Scalable Control Fabric''' ('''SCF'''). The SDF is the primary means by which data flows around the system between end point (e.g. [[NUMA node]]s, [[PHY]]s). The SDF might have dozens of connecting points hooking together things such as [[PCIe]] PHYs, [[memory controller]]s, USB hub, and the various computing and execution units. The SDF is a [[superset]] of what was previously [[HyperTransport]]. The SCF handles the transmission of the many miscellaneous system control signals - this includes things such as thermal and power management, tests, security, and 3rd party IP. With those two interconnections, AMD can efficiently scale up many of the basic computing blocks.
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== Inter-/Intra- communication ==
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A key feature of the coherent data fabric is that it's not limited to a single die and can extend over multiple dies in an [[MCP]] as well as multiple sockets over PCIe links (possibly even across independent systems, although that's speculation). There's also no constraint on the topology of the nodes connected over the fiber, communication can be done directly node-to-node, island-hopping in a [[bus topology]], or as a [[mesh topology]] system.
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[[File:amd infinity fabric dual-socket.svg|600px]]

Revision as of 18:26, 21 June 2017

amd infinity fabric.svg

Infinity Fabric (IF) is a system of transmissions and controls that underpin most of AMD recent microarchitectures for both CPU (i.e., Zen) and graphics (e.g., Vega), and any other additional accelerators they might add in the future. The interconnections were first announced and detailed in April 2017 by Mark Papermaster, AMD's SVP and CTO.

The Infinity Fabric consists of two separate communication interconnections: Infinity Scalable Data Fabric (SDF) and the Infinity Scalable Control Fabric (SCF). The SDF is the primary means by which data flows around the system between end point (e.g. NUMA nodes, PHYs). The SDF might have dozens of connecting points hooking together things such as PCIe PHYs, memory controllers, USB hub, and the various computing and execution units. The SDF is a superset of what was previously HyperTransport. The SCF handles the transmission of the many miscellaneous system control signals - this includes things such as thermal and power management, tests, security, and 3rd party IP. With those two interconnections, AMD can efficiently scale up many of the basic computing blocks.

Inter-/Intra- communication

A key feature of the coherent data fabric is that it's not limited to a single die and can extend over multiple dies in an MCP as well as multiple sockets over PCIe links (possibly even across independent systems, although that's speculation). There's also no constraint on the topology of the nodes connected over the fiber, communication can be done directly node-to-node, island-hopping in a bus topology, or as a mesh topology system.

600px