#MIXDES: #Paper submission deadline reminder (4 weeks left) https://t.co/Iw6yG0q157 This year the 26th MIXDES will take place between June 27-29, 2019 in Rzeszów (PL) https://t.co/ewrq66xLoK

#MIXDES: #Paper submission deadline reminder (4 weeks left)https://t.co/Iw6yG0q157
This year the 26th MIXDES will take place between June 27-29, 2019 in Rzeszów (PL) pic.twitter.com/ewrq66xLoK

— Wladek Grabinski (@wladek60) February 4, 2019

from Twitter https://twitter.com/wladek60

February 04, 2019 at 02:55PM
via IFTTT

GnuCap and ngspice at 2019 FOSDEM DevRoom CAD and Open Hardware

Today at #FOSDEM: Felix Salfelder presenting "#Gnucap -- The GNU circuit analysis package Architecture, Algorithms and Applications" addressing Compact Model license considerations
"https://buff.ly/2CeG4DV"


Holger Vogt presenting "#ngspice, current status and future developments" pointing to an obstacle in FOSS CAD/EDA adoption: The newer and more complex Libs/PDKs often come along with encrypted model files.
"https://buff.ly/2DR0Fz6"

RT @devsim: New DEVSIM TCAD Simulator Release https://t.co/q4fiJ9IMWK #tcad #devsim #opensource https://t.co/T4CLcTTQTO

RT @devsim: New DEVSIM TCAD Simulator Releasehttps://t.co/q4fiJ9IMWK #tcad #devsim #opensource https://t.co/T4CLcTTQTO

— Wladek Grabinski (@wladek60) February 1, 2019

from Twitter https://twitter.com/wladek60

February 01, 2019 at 09:00AM
via IFTTT

#IJNM #paper Ye Yuan Zheng Zhong Yong‐xin Guo Shanxiang Mu A novel large‐signal FET model considering trapping‐induced dispersions https://t.co/UYndQ8cKK1” https://t.co/vu0WQtnRgr https://t.co/BiU9XDDiZc

#IJNM #paper Ye Yuan Zheng Zhong Yong‐xin Guo Shanxiang Mu A novel large‐signal FET model considering trapping‐induced dispersions https://t.co/UYndQ8cKK1” https://t.co/vu0WQtnRgr pic.twitter.com/BiU9XDDiZc

— Wladek Grabinski (@wladek60) January 31, 2019

from Twitter https://twitter.com/wladek60

January 31, 2019 at 04:30PM
via IFTTT

Multiphysics Simulation of Biosensors

M. Madec, L. Hébrard, J. Kammerer, A. Bonament, E. Rosati and C. Lallement

Multiphysics Simulation of Biosensors Involving 3D Biological Reaction-Diffusion Phenomena in a Standard Circuit EDA Environmen

IEEE Transactions on Circuits and Systems I: Regular Papers.

doi: 10.1109/TCSI.2018.2885223

Abstract: The topic of this paper is the development of biological models for 3D reaction-diffusion phenomena that can be used in any circuit electronic design automation environment for the simulation of biosensors. Biological systems that involve such 3D phenomena are described by partial differential equations. Our approach consists in discretizing these equations according to the finite-difference method and converting the resulting ordinary differential equations into an assembly of elementary electronic equivalent circuits that are directly simulated with SPICE. The main interest of this approach is the ability to couple such models with third-party SPICE models of electronic circuits, sensors, and transducers, i.e., models from any physical domain ruled by Kirchhoff laws, allowing modeling and simulation of any multi-physics systems in a conventional circuit design environment, here CADENCE. The tool is validated on simple problems for which analytical solutions are known. Then, the interest of the approach is illustrated on the study of a biosensor.

URL: http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=8602461&isnumber=4358591