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ADAMS: Asymmetric differential STT-RAM cell structure for reliable and high-performance applications

Publication ,  Conference
Zhang, Y; Bayram, I; Wang, Y; Li, H; Chen, Y
Published in: IEEE/ACM International Conference on Computer-Aided Design, Digest of Technical Papers, ICCAD
December 1, 2013

Spin-transfer torque random access memory (STT-RAM) is an emerging non-volatile memory technology offering many attractive characteristics like high integration density, nanosecond access time, and good CMOS compatibility. However, the performance and reliability of STT-RAM cells are greatly affected by process variations and intrinsic device operation randomness. In this work, we proposed a novel STT-RAM cell structure named ADAMS which can be dynamically configured between the high-reliable (HR) mode and the high-capacity (HC) mode upon the real-time system requirement: For the performance and reliability critical applications, ADAMS switches to HR mode. The novel connection scheme of magnetic tunneling junction (MTJ) devices and programming/sensing circuits substantially improve the read and write performance of the ADAMS cell and enhance its resilience to operation errors; For the capacity critical applications, ADAMS switches to HC mode. The ADAMS cell is broken into two '1T1J' cells that can work independently, offering the similar performance and reliability to conventional STT-RAM design. Simulation results show that compared to convectional 1T1J cell structure, ADAMS offers the same write latency, smaller cell area, and 12× lower write error rate. The read latency is also improved by 44.2% with 1935.8× reduction on combined read error rate. © 2013 IEEE.

Duke Scholars

Published In

IEEE/ACM International Conference on Computer-Aided Design, Digest of Technical Papers, ICCAD

DOI

ISSN

1092-3152

Publication Date

December 1, 2013

Start / End Page

9 / 16
 

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Zhang, Y., Bayram, I., Wang, Y., Li, H., & Chen, Y. (2013). ADAMS: Asymmetric differential STT-RAM cell structure for reliable and high-performance applications. In IEEE/ACM International Conference on Computer-Aided Design, Digest of Technical Papers, ICCAD (pp. 9–16). https://doi.org/10.1109/ICCAD.2013.6691091
Zhang, Y., I. Bayram, Y. Wang, H. Li, and Y. Chen. “ADAMS: Asymmetric differential STT-RAM cell structure for reliable and high-performance applications.” In IEEE/ACM International Conference on Computer-Aided Design, Digest of Technical Papers, ICCAD, 9–16, 2013. https://doi.org/10.1109/ICCAD.2013.6691091.
Zhang Y, Bayram I, Wang Y, Li H, Chen Y. ADAMS: Asymmetric differential STT-RAM cell structure for reliable and high-performance applications. In: IEEE/ACM International Conference on Computer-Aided Design, Digest of Technical Papers, ICCAD. 2013. p. 9–16.
Zhang, Y., et al. “ADAMS: Asymmetric differential STT-RAM cell structure for reliable and high-performance applications.” IEEE/ACM International Conference on Computer-Aided Design, Digest of Technical Papers, ICCAD, 2013, pp. 9–16. Scopus, doi:10.1109/ICCAD.2013.6691091.
Zhang Y, Bayram I, Wang Y, Li H, Chen Y. ADAMS: Asymmetric differential STT-RAM cell structure for reliable and high-performance applications. IEEE/ACM International Conference on Computer-Aided Design, Digest of Technical Papers, ICCAD. 2013. p. 9–16.

Published In

IEEE/ACM International Conference on Computer-Aided Design, Digest of Technical Papers, ICCAD

DOI

ISSN

1092-3152

Publication Date

December 1, 2013

Start / End Page

9 / 16