ADC (1) Containers (1) Cython (2) Docker (1) Genetic Algorithm (1) HPC (1) Julia (4) Jupyter notebooks (1) Monte Carlo (2) NVIDIA (1) NumPy (1) Numba (3) PK/PD (2) PKPD Modeling (2) PyJulia (3) PySB (2) Python (8) QSP (2) Shakespeare (1) Singularity (1) Web App (1) anitobody drug conjugate (1) apoptosis (1) cancer therapies (4) drug discovery (4) genetic algorithm (1) journal article (1) matplotlib (1) model calibration (1) optimization (2) pharmacology (6) publication (1) radioligand therapy (3) software (2) tBid (1)

 ADC (1)

Antibody-Drug Conjugates (ADCs) Part 1 - What are ADCs?

 Containers (1)

Programming container recipes in Python with NVIDIA HPC Container Maker

 Cython (2)

Embedding Julia in a Python-based Genetic Algorithm Optimizer using PyJulia
Accelerating Python code with Cython and Numba

 Docker (1)

Programming container recipes in Python with NVIDIA HPC Container Maker

 Genetic Algorithm (1)

Embedding Julia in a Python-based Genetic Algorithm Optimizer using PyJulia

 HPC (1)

Programming container recipes in Python with NVIDIA HPC Container Maker

 Julia (4)

Programming container recipes in Python with NVIDIA HPC Container Maker
Embedding Julia in a Python-based Genetic Algorithm Optimizer using PyJulia
Harnessing the speed of Julia in Python with PyJulia
Python+Numba vs. Julia

 Jupyter notebooks (1)

2 ways to improve the default resolution of matplotlib plots rendered in Jupyter notebooks

 Monte Carlo (2)

Harnessing the speed of Julia in Python with PyJulia
Python+Numba vs. Julia

 NVIDIA (1)

Programming container recipes in Python with NVIDIA HPC Container Maker

 NumPy (1)

Python+Numba vs. Julia

 Numba (3)

Embedding Julia in a Python-based Genetic Algorithm Optimizer using PyJulia
Python+Numba vs. Julia
Accelerating Python code with Cython and Numba

 PK/PD (2)

Introducing Aurora PK/PD!
Modeling Drug Dynamics using Programmatic PK/PD Models in Python

 PKPD Modeling (2)

Radioligand Therapy (RLT) Part 3 - Modeling how clearance, binding, and uptake affect tumor targeting and off-target emissions using a semi-mechanistic PK/PD approach
Radioligand Therapy (RLT) Part 2 - Modeling how radionuclide half-life affects tumor targeting and off-target emissions using a semi-mechanistic PK/PD approach

 PyJulia (3)

Programming container recipes in Python with NVIDIA HPC Container Maker
Embedding Julia in a Python-based Genetic Algorithm Optimizer using PyJulia
Harnessing the speed of Julia in Python with PyJulia

 PySB (2)

Introducing Aurora PK/PD!
Modeling Drug Dynamics using Programmatic PK/PD Models in Python

 Python (8)

Programming container recipes in Python with NVIDIA HPC Container Maker
Embedding Julia in a Python-based Genetic Algorithm Optimizer using PyJulia
Introducing Aurora PK/PD!
Harnessing the speed of Julia in Python with PyJulia
Modeling Drug Dynamics using Programmatic PK/PD Models in Python
2 ways to improve the default resolution of matplotlib plots rendered in Jupyter notebooks
Python+Numba vs. Julia
Accelerating Python code with Cython and Numba

 QSP (2)

Radioligand Therapy (RLT) Part 3 - Modeling how clearance, binding, and uptake affect tumor targeting and off-target emissions using a semi-mechanistic PK/PD approach
Modeling Drug Dynamics using Programmatic PK/PD Models in Python

 Shakespeare (1)

tBid, or not tBid?

 Singularity (1)

Programming container recipes in Python with NVIDIA HPC Container Maker

 Web App (1)

Introducing Aurora PK/PD!

 anitobody drug conjugate (1)

Antibody-Drug Conjugates (ADCs) Part 1 - What are ADCs?

 apoptosis (1)

tBid, or not tBid?

 cancer therapies (4)

Antibody-Drug Conjugates (ADCs) Part 1 - What are ADCs?
Radioligand Therapy (RLT) Part 3 - Modeling how clearance, binding, and uptake affect tumor targeting and off-target emissions using a semi-mechanistic PK/PD approach
Radioligand Therapy (RLT) Part 2 - Modeling how radionuclide half-life affects tumor targeting and off-target emissions using a semi-mechanistic PK/PD approach
Radioligand Therapy (RLT) Part 1 - An Overview

 drug discovery (4)

Antibody-Drug Conjugates (ADCs) Part 1 - What are ADCs?
Radioligand Therapy (RLT) Part 3 - Modeling how clearance, binding, and uptake affect tumor targeting and off-target emissions using a semi-mechanistic PK/PD approach
Radioligand Therapy (RLT) Part 2 - Modeling how radionuclide half-life affects tumor targeting and off-target emissions using a semi-mechanistic PK/PD approach
Radioligand Therapy (RLT) Part 1 - An Overview

 genetic algorithm (1)

Accelerating Python code with Cython and Numba

 journal article (1)

New publication and Cover art

 matplotlib (1)

2 ways to improve the default resolution of matplotlib plots rendered in Jupyter notebooks

 model calibration (1)

Accelerating Python code with Cython and Numba

 optimization (2)

Embedding Julia in a Python-based Genetic Algorithm Optimizer using PyJulia
Accelerating Python code with Cython and Numba

 pharmacology (6)

Antibody-Drug Conjugates (ADCs) Part 1 - What are ADCs?
Radioligand Therapy (RLT) Part 3 - Modeling how clearance, binding, and uptake affect tumor targeting and off-target emissions using a semi-mechanistic PK/PD approach
Radioligand Therapy (RLT) Part 2 - Modeling how radionuclide half-life affects tumor targeting and off-target emissions using a semi-mechanistic PK/PD approach
Radioligand Therapy (RLT) Part 1 - An Overview
Introducing Aurora PK/PD!
Modeling Drug Dynamics using Programmatic PK/PD Models in Python

 publication (1)

New publication and Cover art

 radioligand therapy (3)

Radioligand Therapy (RLT) Part 3 - Modeling how clearance, binding, and uptake affect tumor targeting and off-target emissions using a semi-mechanistic PK/PD approach
Radioligand Therapy (RLT) Part 2 - Modeling how radionuclide half-life affects tumor targeting and off-target emissions using a semi-mechanistic PK/PD approach
Radioligand Therapy (RLT) Part 1 - An Overview

 software (2)

Embedding Julia in a Python-based Genetic Algorithm Optimizer using PyJulia
Introducing Aurora PK/PD!

 tBid (1)

tBid, or not tBid?