DocumentCode
1307581
Title
Multicore Architectures With Dynamically Reconfigurable Array Processors for Wireless Broadband Technologies
Author
Han, Wei ; Yi, Ying ; Muir, Mark ; Nousias, Ioannis ; Arslan, Tughrul ; Erdogan, Ahmet T.
Author_Institution
Sch. of Eng., Univ. of Edinburgh, Edinburgh, UK
Volume
28
Issue
12
fYear
2009
Firstpage
1830
Lastpage
1843
Abstract
Wireless Internet-access technologies have significant market potential, particularly the Worldwide Interoperability for Microwave Access (WiMAX) protocol which can offer data rates of tens of megabits per second. A significant demand for embedded high-performance WiMAX solutions is forcing designers to seek single-chip multicore systems that offer competitive advantages in terms of all performance metrics, such as speed, power, and area. Through the provision of a degree of flexibility similar to that of a DSP and performance and power consumption advantages approaching that of an application-specific integrated circuit, emerging dynamically reconfigurable (DR) processors are proving to be strong candidates for processing cores in future high-performance multicore-processor systems. This paper presents several new single-chip multicore architectures for the WiMAX application based on recently emerging coarse-grained DR processor cores. A simulation platform is proposed in order to explore and implement various multicore solutions combining different memory architectures and task-partitioning schemes. This paper describes the different architectures, the simulation environment, and several task-partitioning methods and demonstrates that up to 7.3 and 12 times speedup can be achieved by employing eight and ten DR processor cores for both the WiMAX transmitter and receiver sections, respectively. A comparison with other WiMAX multicore solutions is given in order to demonstrate that our best solution delivers a high throughput at relatively low area cost.
Keywords
WiMax; broadband networks; microprocessor chips; radio access networks; reconfigurable architectures; WiMAX protocol; application specific integrated circuit; coarse grained DR processor core; high performance multicore processor system; microwave access protocol; reconfigurable array processor; single chip multicore architecture; task partitioning scheme; wireless Internet access technology; wireless broadband technology; worldwide interoperability; Access protocols; Application specific integrated circuits; Digital signal processing; Energy consumption; Internet; Measurement; Microwave technology; Multicore processing; WiMAX; Wireless application protocol; Broadband access; WiMAX; multicore architectures; reconfigurable architectures;
fLanguage
English
Journal_Title
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
Publisher
ieee
ISSN
0278-0070
Type
jour
DOI
10.1109/TCAD.2009.2032361
Filename
5324020
Link To Document