Title :
BER Measurement of a 5.8-Gb/s/pin Unidirectional Differential I/O for DRAM Application With DIMM Channel
Author :
Jang, Young-Chan ; Chung, Hoeju ; Choi, Youngdon ; Park, Hwanwook ; Kim, Jaekwan ; Lim, Soouk ; Sunwoo, Jung ; Park, Moon-Sook ; Kim, Hyung-Seuk ; Kim, Sang-Yun ; Lee, Yun-Sang ; Kim, Woo-Seop ; Lee, Jung-Bae ; Yoo, Jeihwan ; Kim, Changhyun
Author_Institution :
Sch. of Electron. Eng., Kumoh Nat. Inst. of Technol., Gumi, South Korea
Abstract :
A 1-Gbit DRAM with 5.8-Gb/s/pin unidirectional differential I/Os was implemented by 70 nm DRAM process and a main memory module with dual in-line memory module was assembled. The implemented DRAM chips have control methods for core noise injection and a cyclic redundancy check (CRC) generator for outer-data inner-command architecture. Measurements for bit error rate and jitter performance of the transmitter was performed on an electrical test board which emulates the real memory system´s environment. Also, the effect on power noise was analyzed from the DRAM chips with three class values of power decoupling capacitance for the peripheral part. The results show that no additional coding for the differential I/O protection in DRAM, like CRC, is required up to 5.8-Gb/s/pin operation.
Keywords :
DRAM chips; error statistics; bit error rate; core noise injection; cyclic redundancy check; dual in-line memory module channel; dynamic RAM; memory size 1 GByte; outer-data inner-command; pin unidirectional differential I/O; power decoupling capacitance; size 70 nm; Assembly; Bit error rate; Cyclic redundancy check; Electric variables measurement; Jitter; Noise generators; Random access memory; Semiconductor device measurement; Transmitters; Working environment noise; DRAM; bit error rate (BER); cyclic redundancy check (CRC); dual in-line memory module (DIMM); memory interface; outer-data inner-command (ODIC); unidirectional differential I/O;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2009.2028948
