
CANCER RESEARCH: A SUPERCOMPUTING PERSPECTIVE
From patient-specific treatments to immunology to drug discovery, advanced computing accelerates basic and applied science
Research using TACC supercomputers studies bioelectric effects of cells to develop new anti-cancer strategies
TARGETED, HIGH-ENERGY CANCER TREATMENTS GET A SUPERCOMPUTING BOOST
Researchers use supercomputers at the Texas Advanced Computing Center to improve, plan, and understand the basic science of radiation therapy
ADVANCING CANCER IMMUNOTHERAPY WITH COMPUTER SIMULATIONS AND DATA ANALYSIS
Supercomputers at the Texas Advanced Computing Center help researchers classify patients' immune response, design clinical trials and analyze immune repertoire data
Mining cancer data for treatment clues
Cancer bioinformatics researchers rely on TACC supercomputers to help identify risk factors and classify tumors
More precise diagnostics for better cancer outcomes
Researchers use supercomputers at the Texas Advanced Computing Center to design and test new tools for cancer detection
IMPROVING CANCER SURGERY WITH REAL-TIME IMAGE PROCESSING
MD Anderson researcher uses TACC supercomputers to simulate bioheat transfer and guide precision surgery
Tailoring cancer treatments to individual patients
Supercomputers at the Texas Advanced Computing Center help researchers design cancer models and predict treatments outcomes based on patient-specific conditions
SCIENTISTS ENLIST SUPERCOMPUTERS, MACHINE LEARNING TO AUTOMATICALLY IDENTIFY BRAIN TUMORS
Team led by University of Texas at Austin researchers shines in Multimodal Brain Tumor Segmentation Challenge
SUPERCOMPUTERS ASSIST IN SEARCH FOR NEW, BETTER CANCER DRUGS
Researchers use TACC's advanced computers to virtually discover and experimentally test new chemotherapy drugs and targets