This paper proposes a novel cache architecture suitable for merged DRAM/logic LSIs, which is called \u22dynamically variable line-size cache(D-VLS cache).\u22 The D-VLS cache can optimize its line-size according to the characteristic of programs, and attempts to improve the performance by exploiting the high on-chip memory bandwidth on merged DRAM/logic LSIs appropriately. In our evaluation, it is observed that an average memory-access time improvement achieved by a direct-mapped D-VLS cache is about 20% compared to a conventional direct-mapped cache with fixed 32-byte lines. This performance improvement is better than that of a doubled-size conventional direct-mapped cache
DRAMとロジックの混載は, 21世紀のSOC(System-On-a-Chip)時代を支える最も重要な技術の1つである.従来は分チップ構成であったCPUと主記憶を1チップ化することにより, 今までに...
textContemporary DRAM systems have maintained impressive scaling by managing a careful balance betwe...
Dynamic Random Access Memories (DRAM) are the dominant solid-state memory devices used for primary m...
This paper proposes a novel cache architecture suit-able for merged DRAM/logic LSIs, which is called...
This paper proposes a novel cache architecture suitable for merged DRAM/logic LSIs, which is called ...
This paper proposes an on-chip memory-path architecture employing the dynamically variable line-size...
This paper proposes an on-chip memory-path architecture employing the dynamically variable line-size...
Intelligent Memory Systems: Second International Workshop, IMS 2000, Cambridge, MA, USA, November 12...
Integrating main memory (DRAM) and processors into a single chip, or merged DRAM/logic LSI, makes it...
Many of the current memory architectures embed a SRAM cache within the DRAM memory. These architectu...
Abstract—The memory bandwidth can dramatically be improved by means of stacking the main memory (DRA...
the tight integration of significant quantities of DRAM with high-performance computation logic. How...
This paper proposes a novel L1 data cache design with dual-versioning SRAM cells (dvSRAM) for chip m...
Multiple-channel die-stacked DRAMs have been used for maximizing the performance and minimizing the ...
DRAM caches have shown excellent potential in capturing the spatial and temporal data locality of ap...
DRAMとロジックの混載は, 21世紀のSOC(System-On-a-Chip)時代を支える最も重要な技術の1つである.従来は分チップ構成であったCPUと主記憶を1チップ化することにより, 今までに...
textContemporary DRAM systems have maintained impressive scaling by managing a careful balance betwe...
Dynamic Random Access Memories (DRAM) are the dominant solid-state memory devices used for primary m...
This paper proposes a novel cache architecture suit-able for merged DRAM/logic LSIs, which is called...
This paper proposes a novel cache architecture suitable for merged DRAM/logic LSIs, which is called ...
This paper proposes an on-chip memory-path architecture employing the dynamically variable line-size...
This paper proposes an on-chip memory-path architecture employing the dynamically variable line-size...
Intelligent Memory Systems: Second International Workshop, IMS 2000, Cambridge, MA, USA, November 12...
Integrating main memory (DRAM) and processors into a single chip, or merged DRAM/logic LSI, makes it...
Many of the current memory architectures embed a SRAM cache within the DRAM memory. These architectu...
Abstract—The memory bandwidth can dramatically be improved by means of stacking the main memory (DRA...
the tight integration of significant quantities of DRAM with high-performance computation logic. How...
This paper proposes a novel L1 data cache design with dual-versioning SRAM cells (dvSRAM) for chip m...
Multiple-channel die-stacked DRAMs have been used for maximizing the performance and minimizing the ...
DRAM caches have shown excellent potential in capturing the spatial and temporal data locality of ap...
DRAMとロジックの混載は, 21世紀のSOC(System-On-a-Chip)時代を支える最も重要な技術の1つである.従来は分チップ構成であったCPUと主記憶を1チップ化することにより, 今までに...
textContemporary DRAM systems have maintained impressive scaling by managing a careful balance betwe...
Dynamic Random Access Memories (DRAM) are the dominant solid-state memory devices used for primary m...