Mor Harchol-Balter

E398889

Mor Harchol-Balter is a prominent computer scientist known for her influential work in performance evaluation, queuing theory, and scheduling in computer systems.

All labels observed (1)

Label Occurrences
Mor Harchol-Balter canonical 1

How this entity was disambiguated

Statements (49)

Predicate Object
instanceOf academic
computer scientist
researcher
academicDiscipline applied probability
theoretical computer science
citizenship United States of America
surface form: United States
employer CMU
surface form: Carnegie Mellon University
fieldOfWork computer science
distributed systems performance
load balancing
operating systems performance
performance evaluation
queuing theory
resource allocation in computer systems
scheduling
stochastic modeling
gender female
genre technical non-fiction
hasRole PhD advisor
conference program committee member
graduate mentor
journal editorial board member
influencedDomain design of data centers
design of distributed computing platforms
design of web servers
scheduling in operating systems
knownFor applying queueing theory to computer system design
bridging theory and practice in performance modeling
educational contributions in performance evaluation
research on load balancing in large-scale systems
work on scheduling policies that minimize response time
language English
notableIdea analysis of heavy-tailed workloads in computer systems
queueing-theoretic models for server farms
use of size-based scheduling to improve mean response time
notableWork Performance Modeling and Design of Computer Systems: Queueing Theory in Action
occupation author
professor
researchInterest job scheduling policies
load balancing algorithms
power management in data centers
queueing-based scheduling
resource sharing in computer systems
response time in computer systems
server farm design
teaches performance modeling
queueing theory
stochastic processes for computer systems
workInstitution School of Computer Science at Carnegie Mellon University
surface form: Carnegie Mellon University School of Computer Science

How these facts were elicited

Referenced by (1)

Full triples — surface form annotated when it differs from this entity's canonical label.