To make systems infinitely scalable is the holy grail of chip design and crux that needs to be solved in order to invent a sustainable design methodology. Network-on-Chip (NoC) has been suggested as this solution as it replaces the traditional buses for on-chip interconnection purposes. However, to reach infinite scalability, off-chip extensions to the NoC protocols are needed in order to maintain scalability at an affordable cost of manufacturability. Going off-chip introduces more levels of complexity when it comes to testing, not only should the chip testing be speedy, the off-chip connections must also be testable in a fast manner, the fastest way being a set of BISTs testing the whole structure in parallel. In this paper, we present a BIST approach for testing an off-chip NoC protocol used in a 4×4 Network-on-Chip configuration. It has 16 processor-nodes implemented on four interconnected plesiochronous Altera Stratix-II FPGA boards, each board hosting a Quad-core NoC.
[1]
J. Oberg,et al.
Implementation of a scalable, globally plesiochronous locally synchronous, off-chip NoC communication protocol
,
2009,
2009 NORCHIP.
[2]
Sadayasu Ono,et al.
Digital Clocks for Synchronization and Communications
,
2002
.
[3]
Ingo Sander,et al.
Design and implementation of a plesiochronous multi-core 4x4 network-on-chip FPGA platform with MPI HAL support
,
2009
.
[4]
Eric Bogatin.
Signal Integrity - Simplified
,
2003
.
[5]
Philip Simpson.
FPGA Design: Best Practices for Team-based Design
,
2010
.
[6]
Tina Harriet Smilkstein,et al.
Jitter reduction on high-speed clock signals
,
2007
.
[7]
Ashish Gambhir,et al.
A Comparison of Network-on-chip and Buses
,
2014
.