Utilizing the nonuniform latencies of SDRAM devices, access reordering mechanisms alter the sequence of main memory access streams to reduce the observed access latency. Using a revised M5 simulator with an accurate SDRAM module, the burst scheduling access reordering mechanism is proposed and compared to conventional in order memory scheduling as well as existing academic and industrial access reordering mechanisms. With burst scheduling, memory accesses to the same rows of the same banks are clustered into bursts to maximize bus utilization of the SDRAM device. Subject to a static threshold, memory reads are allowed to preempt ongoing writes for reduced read latency, while qualified writes are piggybacked at the end of bursts to exploit r...
Currently optical burst switching (OBS) has been regarded as the most promising backbone networking ...
The verification complexity of real-time requirements in embedded systems grows exponentially with t...
Reducing main memory access latency through SDRAM address mapping techniques and access reordering m...
As the performance gap between microprocessors and memory continues to increase, main memory accesse...
The bandwidth and latency of a memory system are strongly dependent on the manner in which accesses ...
Synchronous dynamic random access memories (SDRAMs) are widely employed in multi- and many-core plat...
For efficient acceleration on FPGA, it is essential for external memory to match the throughput of t...
The performance gap between processors and memory has grown larger and larger in the last years. Wit...
The continuously growing functionality of digital video surveillance make the surveillance system in...
Real-time safety-critical systems should provide hard bounds on an applications’ performance. SDRAM ...
<p>Modern DRAM cells are periodically refreshed to prevent data loss due to leakage. Commodity DDR (...
This letter quantitatively evaluates two alternative approaches to the scheduling of traffic streams...
Multi-banked embedded DRAM (eDRAM) has become increas-ingly popular in high-performance systems. How...
NAND flash storage has proven to be a competitive alter-native to traditional disk for its propertie...
Considers an N×N nonblocking, space division, input queuing ATM cell switch, and a class of Markovia...
Currently optical burst switching (OBS) has been regarded as the most promising backbone networking ...
The verification complexity of real-time requirements in embedded systems grows exponentially with t...
Reducing main memory access latency through SDRAM address mapping techniques and access reordering m...
As the performance gap between microprocessors and memory continues to increase, main memory accesse...
The bandwidth and latency of a memory system are strongly dependent on the manner in which accesses ...
Synchronous dynamic random access memories (SDRAMs) are widely employed in multi- and many-core plat...
For efficient acceleration on FPGA, it is essential for external memory to match the throughput of t...
The performance gap between processors and memory has grown larger and larger in the last years. Wit...
The continuously growing functionality of digital video surveillance make the surveillance system in...
Real-time safety-critical systems should provide hard bounds on an applications’ performance. SDRAM ...
<p>Modern DRAM cells are periodically refreshed to prevent data loss due to leakage. Commodity DDR (...
This letter quantitatively evaluates two alternative approaches to the scheduling of traffic streams...
Multi-banked embedded DRAM (eDRAM) has become increas-ingly popular in high-performance systems. How...
NAND flash storage has proven to be a competitive alter-native to traditional disk for its propertie...
Considers an N×N nonblocking, space division, input queuing ATM cell switch, and a class of Markovia...
Currently optical burst switching (OBS) has been regarded as the most promising backbone networking ...
The verification complexity of real-time requirements in embedded systems grows exponentially with t...
Reducing main memory access latency through SDRAM address mapping techniques and access reordering m...