We have created a new impulse-response (IR) moment-extraction algorithm for RLC circuit networks. It employs a Feynman sum-over-paths postulate. Our approach begins with generation of s-domain nodal-voltage equations. We then perform a Taylor-series expansion of the circuit transfer function. ...
The Response of an RC low pass filter can be found in many ways. All that you need to do is to solve the governing differential equations and apply the initial conditions. The derivation is there in "Circuit Analysis" by Hayt and refer that book. The general solution which everybody shoul...
Laplace Transform of Unit Impulse Function and Unit Step Function - Laplace TransformThe Laplace transform is a mathematical tool which is used to convert the differential equation in time domain into the algebraic equations in the frequency domain or s-
Electrical engineering Arbitrary-order impulse-response (IR) moment extraction in RLC interconnect networks| A novel stochastic algorithm RENSSELAER POLYTECHNIC INSTITUTE Yannick L. Le Coz NiDaweiThe ongoing scaling of high-end digital ICs has increased the number of devices on a chip. Consequently, ...
We have created a new impulse-response (IR) moment-extraction algorithm for RC circuit networks. It employs a Feynman sum-over-paths postulate. Our approach begins with generation of s-domain nodal-voltage equations. We then perform a Taylor-series expansion of the circuit transfer function. ...
We know how to decompose a signal in terms of convolution with the delta (impulse) function. Assume now we have the impulse response of a system/circuit h(t). To find the response due to an arbitrary signal x(t), all that needs to be done is take the impulse response h(t) and ...
Impulse-response (IR) moments derived from an appropriate RLC interconnect model can be a computationally efficient means of analysis for the design of massively coupled digital ICs. This, we consider the primary subject of the Thesis.;In recent times, researchers have been seeking novel materials ...
IMPULSE-RESPONSECoupled RLCM LinesWe have created a stochastic impulse-response (IR) moment-extraction algorithm for RLCM circuit networks. It employs a newly discovered Feynman Sum-over-Paths (SoP) postulate. We report here results of an initial numerical verification, involving an uncoupled RLCM-...
Speedy and accurate solution of the circuit-equation solution is our primary focus. We will assume that massively coupled RLCM circuits that best model the current interconnect structures are available. We believe that low-order impulse-response (IR) moments for the RLCM circuits are, themselves,...
static and dynamically configured digital equalization was implemented for DUT which in our case consists of a self-made nonlinear circuit board cascaded with a commercial off-the-shelf RF amplifier (ZHL-6A+ from Mini-Circuits), to mimic the nonlinear frequency response of a wireless communication ...