Title :
Direct device-to-device transfer protocol: A new look at the benefits of a decentralized I/O model
Author :
Larsen, Steen ; Ben Lee ; Jin-Hyuk Yoon ; Jae-Yeun Yun
Author_Institution :
Intel Corp., 22238 NW Beck Rd, Portland OR 97231, USA
Abstract :
Current I/O devices communicate based on the PCIe protocol, and by default, all the traffic passes through the CPU-memory complex. However, this approach causes bottleneck in system throughput, which increases latency and power as the CPU processes device specific protocols to move data between I/O devices. This paper examines the cost of this centralized I/O approach and proposes a new method to perform direct device-to-device I/O communication. Our proof-of-concept implementation using NetFPGA shows that latency can be reduced by more than 2×, CPU utilization can be reduced by up to 18%, and CPU power can be decreased by up to 31 W.
Keywords :
IP networks; Performance evaluation; Protocols; Receivers; Registers; Servers; Software; I/O device; PCIe; system architecture;
Conference_Titel :
Networking, Architecture and Storage (NAS), 2015 IEEE International Conference on
Conference_Location :
Boston, MA, USA
DOI :
10.1109/NAS.2015.7255202
