Home           Contact us           FAQs           
 
   Journal Page   |   Aims & Scope   |   Author Guideline   |   Editorial Board   |   Search
    Abstract
2014 (Vol. 7, Issue: 8)
Article Information:

CDMA Technique with Inter-process Communication

V. Ravichandran and G.K.D. Prasanna Venkatesan
Corresponding Author:  V. Ravichandran 

Key words:  Asynchronous and synchronous communication, CDMA NOC NoC, inter-process communication, walsh codes, , ,
Vol. 7 , (8): 1691-1696
Submitted Accepted Published
July 12, 2013 August 05, 2013 February 27, 2014
Abstract:

A novel implementation of Inter process communication in CDMA NOC is proposed. In this study, the orthogonality properties of a Walsh code are used to route data packets between the IP-Cores.The asynchronous circuit design with combinational logic (Gate level design) is used for transmission and receiving circuits, along with ip-cores and reduces the processing time and resource utilization. The use of asynchronous pipelined core design process increases the operating frequency as well. The data transfers over IP-Core based interconnect is implemented on gate level. The latency and throughput values are obtained for variable payload size. The performance of asynchronous and synchronous communication are measured and analyzed.
Abstract PDF HTML
  Cite this Reference:
V. Ravichandran and G.K.D. Prasanna Venkatesan, 2014. CDMA Technique with Inter-process Communication.  Research Journal of Applied Sciences, Engineering and Technology, 7(8): 1691-1696.
    Advertise with us
 
ISSN (Online):  2040-7467
ISSN (Print):   2040-7459
Submit Manuscript
   Current Information
   Sales & Services
   Contact Information
  Executive Managing Editor
  Email: admin@maxwellsci.com
  Publishing Editor
  Email: support@maxwellsci.com
  Account Manager
  Email: faisalm@maxwellsci.com
  Journal Editor
  Email: admin@maxwellsci.com
  Press Department
  Email: press@maxwellsci.com
Home  |  Contact us  |  About us  |  Privacy Policy
Copyright © 2009. MAXWELL Science Publication, a division of MAXWELLl Scientific Organization. All rights reserved