德拉姆
计算机科学
带宽(计算)
重新使用
奇偶性(物理)
冗余(工程)
分布式计算
带宽分配
奇偶校验位
错误检测和纠正
计算机网络
杠杆(统计)
动态带宽分配
实时计算
计算机工程
计算机硬件
算法
算术
作者
Fan Li,Qiufeng Li,Yanan Guo,Weidong Cao,Xin Xin
标识
DOI:10.1109/hpca68181.2026.11408447
摘要
Recent memory advancements, such as DDR5, HBM3, and emerging memory-centric accelerators, primarily focus on increasing bandwidth capacity, yet often omit the significance of effective bandwidth utilization, i.e., bandwidth efficiency. Motivated by the suboptimal channel allocation in DDR5, where parity accounts for 25% bandwidth overhead, we propose ASPA, an efficiency-oriented solution that reallocates parity bandwidth to boost regular data transfer. The objective of ASPA is to enhance bandwidth efficiency without compromising reliability while maintaining low hardware overhead. In particular, we leverage existing CRC (Cyclic Redundancy Check) units in DRAM chips to opportunistically generate second-tier parity for the existing ECC (Error Correction Code) parity. For bulk-sized memory accesses, only the small second-tier parity is transmitted. This reduces the parity bandwidth consumption, allowing data chips to reuse the freed parity bandwidth for data transfer. Our observation indicates that the protection capability is sufficient when the second-tier parity (with a 64-bit size) is used exclusively for error detection. Furthermore, by exploiting underutilized resources in high-performance memory systems, ASPA is implemented with negligible hardware overhead.
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