Associative memories are massively parallel circuits which perform a parallel comparison between stored data and input data. When operated in parallel comparison mode, they require high current spikes (in the order of few amperes) at every clock edge, and the voltage drop due to current spikes can seriously affect the circuit operation. This paper proposes a method to enhance the power integrity, both at package level and at chip level. This work aims at avoiding “bounce” effects on supply voltages, and at keeping the supply voltage ripple below one hundred millivolts during the comparison mode. A technique to mitigate the voltage ripple consists in placing decoupling capacitors on the Power Delivery Network (PDN). This technique can be applied both at the chip level and at the package level. We show that this technique allows us to keep the power network impedance below 0.1 Ω within the relevant bandwidth of the circuit.
Power Distribution Network optimization for Associative Memories / L. Frontini, A. Stabile, V. Liberali - In: 2017 6th International Conference on Modern Circuits and Systems Technologies (MOCAST)[s.l] : IEEE, 2017 Jun 01. - ISBN 9781509043866. - pp. 1-4 (( Intervento presentato al 6. convegno Modern Circuits and Systems Technologies tenutosi a Thessaloniki nel 2017.
Power Distribution Network optimization for Associative Memories
L. FrontiniPrimo
;A. StabileSecondo
;V. LiberaliUltimo
2017
Abstract
Associative memories are massively parallel circuits which perform a parallel comparison between stored data and input data. When operated in parallel comparison mode, they require high current spikes (in the order of few amperes) at every clock edge, and the voltage drop due to current spikes can seriously affect the circuit operation. This paper proposes a method to enhance the power integrity, both at package level and at chip level. This work aims at avoiding “bounce” effects on supply voltages, and at keeping the supply voltage ripple below one hundred millivolts during the comparison mode. A technique to mitigate the voltage ripple consists in placing decoupling capacitors on the Power Delivery Network (PDN). This technique can be applied both at the chip level and at the package level. We show that this technique allows us to keep the power network impedance below 0.1 Ω within the relevant bandwidth of the circuit.
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