20 skills found
TorchOPC / TorchLithoDifferentiable Computational Lithogrpahy Framework
diegozain / GerjoiiRadar and DC resistivity 2.5D multi-physics inversion suite. Forward modeling, separate inversions, joint inversions.
fgr1986 / Vlsi Memristor Compact ModelPhysical memristor/RRAM/resistive switching device SPICE compact model, that is able to accurately fit both unipolar/bipolar devices settling to its current-voltage relationship.
PKU-Alignment / Llms Resist Alignment[ACL2025 Best Paper] Language Models Resist Alignment
lechmazur / DeceptionBenchmark evaluating LLMs on their ability to create and resist disinformation. Includes comprehensive testing across major models (Claude, GPT-4, Gemini, Llama, etc.) with standardized evaluation metrics.
aixamrr / MoVFEMMulti-order Vector Finite Element Method, a computational algorithm for the modeling of 3D Magnetotelluric (MT) data using a Vector Finite Element Method of specific order from multiple elements' orders. Our algorithm allows complex geometries, topography, and anisotropic resistivity structures.
kbefus / PyresPython package for modeling electrical resistivity data
americast / ResperComputationally Modelling Resisting Strategies in Persuasive Conversations
rowanc1 / SimpegdcA DC resistivity forward modelling and inversion package for SimPEG.
jcmefra / Groundwater MLMachine Learning Model for Groundwater detection based on resistivity values
shaikhon / Clockwork RNN Porosity Log PredictionA Clockwork RNN model to train on compressional velocity (Vp), formation density (Rhob), gamma ray (Gr), and resistivity (Rt) logs to predict Neutron Porosity (Nphi)
m-weigand / Cole Cole FitRoutines to fit complex resistivity spectra using the Cole-Cole model
rahulreddythummala / A Secure And Dynamic Multi Keyword Ranked Search Scheme Over Encrypted Cloud Data• Here, a secure multi-keyword ranked search scheme over encrypted cloud data is presented using JAVA as the frontend technology and backend as MySQL.• Specifically, the vector space model and the widely-used “term frequency (TF) × inverse document frequency(IDF)” model are combined in the index construction and query generation to provide multi-keyword ranked search.• We construct a special tree-based index structure and propose a “Greedy Depth-first Search” algorithm to provide efficient multi-keyword ranked search. • The secure kNN algorithm is utilized to encrypt the index and query vectors, and to ensure accurate relevance score calculation between encrypted index and query vectors. • To resist different attacks in different threat models, we construct two secure search schemes: the basic dynamic multi-keyword ranked search (BDMRS) scheme in the known ciphertext model, and the enhanced dynamic multi-keyword ranked search (EDMRS) scheme in the known background model.
donfuge / Rcsj SdeResistively and Capacitively Shunted Junction (RCSJ) model simulator with thermal noise
meronvermaas / FEMfunsFEMfuns: a volume conduction modeling pipeline that includes resistive, capacitive or dispersive tissue and electrodes
darcycordell / MELTS MTCollection of scripts which link bulk resistivity to a parameterization of the rhyolite-MELTS thermodynamic model
stevenblair / Rtds SfclResistive superconducting fault current limiter (SFCL) model in RSCAD for a Real-Time Digital Simulator (RTDS)
iandeniset / MscThesisCode, modeling summaries, analysis, and final document for my thesis on multichannel analysis of surface waves and electrical resistivity for detecting shallow objects in clay
akobj / CNN ECa TrainingData From ERTBased on a statistical analysis of the inverted ERT models extracts 1D profiles of electrical resistivity and uses an upscaling approach to provide a signifcant number of training models usefuls for CNN based approaches for EMI inversion.
Ritika-Das / 3D Piezoelectric ShoeThis repository contains the 3D models developed for better visualization of generating energy by applying pressure on a piezoelectric shoe or "SmartFeet", which in turn is made up of 25 (or 26) piezoelectric sensors embedded in each shoe, a 47 μF/ 4.50V capacitor, a full wave bridge rectifier (four 1N914 diodes), a diode (also of model 1N914), a LED (model NSPW500BS), a resistive load (1 kΩ) connected using wires. Since a piezoelectric sensor can't be used in the LTSpice directive, we have used a SINE(0 5) voltage source to replicate the same at increments of 2V, alongside a slideswitch.
