Analysis and application of improved feedthrough logic

Continuous technology scaling and increased frequency of operation of VLSI circuits leads to increase in power density which raises thermal management problem. Therefore design of low power VLSI circuit technique is a challenging task without sacrificing its performance. This thesis presents the design of a low power dynamic circuit using a new CMOS domino logic family called feedthrough (FTL) logic. Dynamic logic circuits are more significant because of its faster speed and lesser transistor requirement as compared to static CMOS logic circuits. The need for faster circuits compels designers to use FTL as compared static and domino CMOS logic and the requirement of output inverter for cascading of various logic blocks in domino logic are eliminated in the proposed design. The proposed circuit for low power (LP-FTL) improves dynamic power consumption as compared to the existing FTL and to further improve its speed we propose another circuit (HS-FTL). This logic family improves speed at the cost of dynamic power consumption and area. Proposed modified FTL circuit families provide better PDP as compared to the existing FTL. Simulation results of both the proposed circuit using 0.18 µm, 1.8 V CMOS process technology indicate that the LP-FTL structure reduces the dynamic power approximately by 42% and the HS-FTL structure achieves a speed up- 1.4 for 10-stage of inverters and 8-bit ripple carry adder in comparison to existing FTL logic. Furthermore, we present various circuit design techniques to improve noise tolerance of the proposed FTL logic families. Noise in deep submicron technology limits the reliability and performance of ICs. The ANTE (average noise threshold energy) metric is used for the analysis of noise tolerance of proposed FTL. A 2-input NAND and NOR gate is designed by the proposed technique. Simulation results for a 2-input NAND gate at 0.18-µm, 1.8 V CMOS process technology show that the proposed noise tolerant circuit achieves 1.79X ANTE improvement along with the reduction in leakage power. Continuous scaling of technology towards the nanometer range significantly increases leakage current level and the effect of noise. This research can be further extended for performance optimization in terms of power, speed, area and noise immunity

Current Comparison Domino based CHSK Domino Logic Technique for Rapid Progression and Low Power Alleviation

The proposed domino logic is developed with the combination of Current Comparison Domino (CCD) logic and Conditional High Speed Keeper (CHSK) domino logic. In order to improve the performance metrics like power, delay and noise immunity, the redesign of CHSK is proposed with the CCD. The performance improvement is based on the parasitic capacitance, which reduces on the dynamic node for robust and rapid process of the circuit. The proposed domino logic is designed with keeper and without keeper to measure the performance metrics of the circuit. The outcomes of the proposed domino logic are better when compared to the existing domino logic circuits. The simulation of the proposed CHSK based on the CCD logic circuit is carried out in Cadence Virtuoso tool

Beyond the ‘other’ as constitutive outside: : The politics of immunity in Roberto Esposito and Niklas Luhmann

This article re-conceptualises the ‘constitutive outside’ through Roberto Esposito’s theory of immunity to detach it from Laclau and Mouffe’s political antagonism. It identifies Esposito’s thought as an innovative epistemological perspective to dissolve post-ontological political theories of community from the intertwinement with a foundational self/other dialectic. Esposito shows how a community can sustain its relations through introversive immunisation against a primarily undefined outside. But it is argued that his theory of immunity slips back to a vitalist depth ontology which ultimately de-politicises the construction of the communal outside. This article draws on Niklas Luhmann’s immunity theory to resituate immunisation in the political production of social connectivity. Following Luhmann, politics relies on immunisation through contradictions to reproduce its functional role as a decision-making institution, but is at the same time constantly exposed to potential rupture through the political openness immunity introduces. Through Esposito and Luhmann, this article identifies the relationship between a social inside and its outside as open-ended and secondary to an introversive process of socio-political self-differentiation. It can involve, but does epistemologically necessitate, the construction of an external otherPeer reviewedFinal Accepted Versio

Interacting Systems for Self-Correcting Low Power Switching

In this paper we first show that dynamic switching schemes can be used to reduce energy dissipation below the thermodynamic minimum of NkTlnr (N= number of state variables, 1/r=error probability), but only at the expense of the error immunity inherent in thermodynamic processes for which the final state is insensitive to the switching dynamics. It is further shown that, for a system which has internal feedback, e.g. nanomagnets, such that all N spins act in concert, it should be possible to switch with an energy dissipation of the order of kTlnr (considerably less than the thermodynamic limit of NkTlnr), while retaining an error immunity comparable to thermodynamic switching