Title :
An 8Gb/s/pin 4pJ/b/pin Single-T-Line dual (base+RF) band simultaneous bidirectional mobile memory I/O interface with inter-channel interference suppression
Author :
Kim, Yanghyo ; Byun, Gyung-Su ; Tang, Adrian ; Jou, Chewn-Pu ; Hsieh, Hsieh-Hung ; Reinman, Glenn ; Cong, Jason ; Chang, Mau-Chung Frank
Author_Institution :
Univ. of California, Los Angeles, Los Angeles, CA, USA
Abstract :
The demand for higher power efficiency and bandwidth is increasing as mobile devices keep enhancing its graphic computing and media processing capabilities. Current memory interfaces with single-wire signaling operate at 5Gb/s/pin [1] and 6Gb/s/pin [2] with the power efficiency of 17.4pJ/b/pin and 15.8pJ/b/pin, respectively. Mobile DDR memory I/O with differential signaling has better power efficiency of 6.4pJ/b/pin [3], and so does the prior dual-band interconnect (DBI) [4] with the efficiency of 5pJ/b/pin at 4.2Gb/s/pin for simultaneous bidirectional (SBD) mobile memory I/O interface. However, DBI´s differential signaling is incompatible with existing standards, and it also occupies large die area for using differential transmission lines and an LC-oscillator for generating RF-carrier. To alleviate these concerns, we propose to use a Single-Transmission-Line DBI (STL-DBI) with the best figure-of-merit (FoM) defined as data rate per pin divided by the I/O-interface die area and power consumption.
Keywords :
adjacent channel interference; integrated memory circuits; mobile handsets; I/O-interface die area; LC-oscillator; RF-carrier; differential signaling; differential transmission lines; dual-band interconnect; figure-of-merit; graphic computing; inter-channel interference suppression; media processing; memory interfaces; mobile DDR memory I/O; mobile devices; power consumption; power efficiency; single-T-line dual band simultaneous bidirectional mobile memory I/O interface; single-transmission-line DBI; single-wire signaling; Bit error rate; Frequency measurement; Mobile communication; Random access memory; Ring oscillators; Transceivers; Voltage measurement;
Conference_Titel :
Solid-State Circuits Conference Digest of Technical Papers (ISSCC), 2012 IEEE International
Conference_Location :
San Francisco, CA
Print_ISBN :
978-1-4673-0376-7
DOI :
10.1109/ISSCC.2012.6176874
