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Nanomagnetic computing for next generation interconnects and logic design

Nanomagnetic computing for next generation interconnects and logic design

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VLSI and Post-CMOS Electronics. Volume 2: Devices, circuits and interconnects — Recommend this title to your library

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In this chapter a holistic approach towards the design of energy-efficient circuitry has been discussed. The novel material graphene with extraordinary mechanical, electrical, thermal and magnetic properties has been shown to have a huge potential in replacing copper for clocking the nanomagnetic-based circuits so that the huge current required for generating external magnetic field can be reduced. Through simulation results the above mentioned has also been established. This chapter on the other hand also provides an insight on nanomagnetic computing for next generation interconnects and logic design. The role of MQCA-based digital arithmetic circuits and their impact has also been well demonstrated in this chapter.

Chapter Contents:

  • 8.1 Prerequisite of magnetic QCA
  • 8.2 Data propagation in nanomagnets
  • 8.3 Logic operation using nanomagnets
  • 8.4 On-chip clocking of nanomagnets
  • 8.5 Opportunities and obstacles of MQCA
  • 8.6 Research prospects and challenges in the field of MQCA in the digital arithmetic circuits domain
  • 8.7 Research challenges in the field of MQCA from clocking material perspective
  • 8.8 Simulation studies of graphene
  • 8.9 Thermal and magnetic properties of graphene
  • 8.10 Summary
  • References

Inspec keywords: magnetic logic; magnetic circuits; nanoelectronics; interconnections; logic design; logic circuits

Other keywords: magnetic properties; MQCA based digital arithmetic circuits; energy-efficient circuitry design; external magnetic field generation; material graphene; logic design; next generation interconnects; nanomagnetic computing; thermal properties; electrical properties; nanomagnetic-based circuits

Subjects: Digital circuit design, modelling and testing; Logic circuits; Logic design methods; Logic and switching circuits

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