Title :
Self-tested self-synchronization by a two-phase input port
Author :
Mu, Fenghao ; Svensson, Christer
Author_Institution :
IFM, Linkoping Univ., Sweden
Abstract :
In high speed large systems, global clocking is used to protect clocked I/O from data read failure due to clock skew. There are many drawbacks in global clock distribution utilized to reduce the clock skew. This paper addresses a self-tested self-synchronization (STSS) method implemented by a two-phase input port for parallel data transfer between blocks. A test signal is added to remove the data read failure. The advantages of this method are: very high data throughput; less power consumption in clock distribution; no constraints on clock skew and system scale; easy in design; less latency. A failure zone concept is used to characterize the behavior of storage elements. By using a jitter injected test signal, robust parallel data transfer between blocks with arbitrary local clock phases is achieved and the problem of global synchronization is avoided in designing high performance ULSI
Keywords :
ULSI; application specific integrated circuits; automatic testing; digital integrated circuits; high-speed integrated circuits; integrated circuit testing; jitter; logic testing; synchronisation; timing; ULSI design; clock distribution; clock skew; data read failure removal; failure zone concept; global clocking; high data throughput; high performance ULSI; high speed large systems; jitter injected test signal; latency reduction; parallel data transfer; power consumption reduction; self-tested self-synchronization; storage elements; two-phase input port; Built-in self-test; Clocks; Delay; Energy consumption; Jitter; Protection; Robustness; Synchronization; Testing; Throughput;
Conference_Titel :
ASIC Conference 1998. Proceedings. Eleventh Annual IEEE International
Conference_Location :
Rochester, NY
Print_ISBN :
0-7803-4980-6
DOI :
10.1109/ASIC.1998.722987
