Title :
Many-core key-value store
Author :
Berezecki, Mateusz ; Frachtenberg, Eitan ; Paleczny, Mike ; Steele, Kenneth
Abstract :
Scaling data centers to handle task-parallel work-loads requires balancing the cost of hardware, operations, and power. Low-power, low-core-count servers reduce costs in one of these dimensions, but may require additional nodes to provide the required quality of service or increase costs by under-utilizing memory and other resources. We show that the throughput, response time, and power consumption of a high-core-count processor operating at a low clock rate and very low power consumption can perform well when compared to a platform using faster but fewer commodity cores. Specific measurements are made for a key-value store, Memcached, using a variety of systems based on three different processors: the 4-core Intel Xeon L5520, 8-core AMD Opteron 6128 HE, and 64-core Tilera TILEPro64.
Keywords :
computer architecture; computer centres; file servers; low-power electronics; multiprocessing systems; power consumption; resource allocation; 4-core Intel Xeon L5520; 64-core Tilera TILEPro64; 8-core AMD Opteron 6128 HE; clock rate; data centers; high-core-count processor; low-core-count servers; low-power servers; many-core key-value store; power consumption; task-parallel workloads; under-utilizing memory; Clocks; Computer architecture; Facebook; Instruction sets; Random access memory; Servers; System-on-a-chip; Key-Value store; Low-power architectures; Many-core processors; Memcached;
Conference_Titel :
Green Computing Conference and Workshops (IGCC), 2011 International
Conference_Location :
Orlando, FL
Print_ISBN :
978-1-4577-1222-7
DOI :
10.1109/IGCC.2011.6008565
