25.1 A 24Gb/s/pin 8Gb GDDR6 with a Half-Rate Daisy-Chain-Based Clocking Architecture and IO Circuitry for Low-Noise Operation
2021 IEEE International Solid- State Circuits Conference (ISSCC)(2021)
摘要
The demand for high-performance graphics systems used for artificial intelligence continues to grow; this trend requires graphics systems to achieve ever higher bandwidths. Enabling GDDR6 DRAM to achieve data rates beyond 18Gb/s/pin [1] requires identifying and solving factors that affect the speed of a memory interface. Prior studies have showed that the memory interface is vulnerable from the signal integrity (SI) and power integrity (PI) perspective, since it is based on a parallel interface using single-ended signaling. Furthermore, circuit schemes to mitigate process, voltage, and temperature (PVT) variations in sub-nanometer DRAM process are required to improve performance. To achieve 24Gb/s/pin on a 1.35V DRAM process, this work proposes a GDDR6 DRAM with a half-rate clocking architecture and optimized I/O.
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关键词
half-rate clocking architecture,half-rate daisy-chain-based clocking architecture,IO circuitry,low-noise operation,high-performance graphics systems,GDDR6 DRAM,data rates,memory interface,parallel interface,sub-nanometer DRAM process,artificial intelligence,ignal integrity,power integrity,single-ended signaling,process, voltage, and temperature variation,PVT variations,optimized I/O,voltage 1.35 V,storage capacity 8 Gbit
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