Title :
Dynamic termination output driver for a 600 MHz microprocessor
Author :
Vishwanthaiah, S. ; Ang, M. ; Starr, J. ; Taylor, A.
Author_Institution :
Sun Microsyst. Inc., Palo Alto, CA, USA
Abstract :
Globally synchronous, multi-drop, bidirectional microprocessor system interfaces have the advantages of low latency and no synchronization penalty, and typically run at 100-120 MHz. Maximum operating frequency is limited by the time required for a signal transition initiated at the driving end to settle and reliably get sampled at the receiving end. Typical source-terminated systems (such as HSTL) require a round-trip transmission-line propagation delay to terminate the signal. With parallel terminated systems such as GTL with 2 nodes, a bus turnaround low-to-low switch with no dead-cycle needs a round-trip propagation delay to settle and be sampled reliably. The dynamic termination logic (DTL) system reduces the settling time to a one-way delay, by having the driver at the receiving end terminate the signal, and raises the signaling frequency to 150-200 MHz.
Keywords :
delays; driver circuits; linearisation techniques; microprocessor chips; peripheral interfaces; 150 to 200 MHz; 600 MHz; bidirectional microprocessor system interfaces; bus turnaround low-to-low switch; dynamic termination logic; dynamic termination output driver; globally synchronous interface; latency; multi-drop interfaces; one-way delay; operating frequency; round-trip propagation delay; round-trip transmission-line propagation delay; signal transition; signaling frequency; source-terminated systems; Driver circuits; Frequency; Impedance; MOSFETs; Microprocessors; Propagation delay; Sun; Switches; Transmission lines; Voltage control;
Conference_Titel :
Solid-State Circuits Conference, 2000. Digest of Technical Papers. ISSCC. 2000 IEEE International
Conference_Location :
San Francisco, CA, USA
Print_ISBN :
0-7803-5853-8
DOI :
10.1109/ISSCC.2000.839770
