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The 20-way set associative 2.5MB slice ported L3 cache for the multi-core Xeon® Processor uses 0.108 um2 cell in a 22nm tri-gate technology with 2.7TB maximum bandwidth. It is protected by double-error correction/triple-error detection ECC. The basic building block is designed to support floorplan style on each processor with large L3 cache. On die fuse storage enables high resolution repair coverage...
The 20-way set associative 2.5MB slice ported L3 cache for the multi-core Xeon® Processor uses 0.108 um2 cell in a 22nm tri-gate technology with 2.7TB maximum bandwidth. It is protected by double-error correction/triple-error detection ECC. The basic building block is designed to support floorplan style on each processor with large L3 cache. On die fuse storage enables high resolution repair coverage...
The 24-way set associative 24MB 8-ported L3 cache for the 8-core Xeon® Processor uses 0.3816 µm02 cell in a 45nm high-K dielectric metal gate technology 9-copper layers. It is protected by double-error correction/triple-error detection ECC. The basic building block is designed to support completely different floorplan styles on 2 processors with large L3 cache. Off die fuse storage enables high resolution...
The 16-way set associative, single-ported 16-MB cache for the Dual-Core Intel Xeon Processor 7100 Series uses a 0.624 mum2 cell in a 65-nm 8-metal technology. Low power techniques are implemented in the L3 cache to minimize both leakage and dynamic power. Sleep transistors are used in the SRAM array and peripherals, reducing the cache leakage by more than 2X. Only 0.8% of the cache is powered up for...
The 16-way set associative, single-ported 16MB cache for the dual-core Xeonreg processor uses a 0.624mum2 cell in a 65nm 8-metal technology. Only 0.8% of the cache is powered up for an access. Sleep transistors are used in the SRAM array and peripherals. Dynamic Pellston with a history buffer protects the cache from latent defects and infant mortality failures
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