2. Fundamental research in Life Sciences and Medicine today is
unimaginable without the deployment of high-performance
computing systems.
It is nearly impossible to develop a comprehensive understand-
ing of an organism’s metabolic details, or to drive the develop-
ment of innovative drugs, without a deep knowledge on the lev-
el of biochemistry or molecular dynamics.
Large computational capacities are needed in genomic re-
search, for finding out cross-species genetic relationships, un-
derstanding viral influence on the germ line, or learning about
the predisposition for hereditary diseases.
Our customers run any of the following applications:
BarraCUDA
SOAP3 und SOAP3-dp
SeqNFind
VASP
AMBER
CHARMM
ESPResSO
GROMACS
All applications are integrated into a workload manag-
er, according to the customer’s demands, and provided
to the end users via comfortable submission scripts or
a web portal. This way, highest computational capacity
and ease-of-use are combined to a total solution that
provides the customer with maximal productivity.
ttec designs and implements individually configured
solutions for remote visualization, to provide custom-
ers with a comprehensive workflow optimization and
data consolidation. Dedicatedly targeted at the special
demands of 3D rendering in Life Sciences, NICE DCV has
as its primary goal to transfer 3D and OpenGL graph-
ics applications even across WAN or internet links with
low bandwidth and high-latency. Besides a higher utili-
zation of the existing hardware, new innovative ways
towards collaboration across sites and a central data
management are shown.
Your decision for a ttec solution means you opt for
most intensive customer care and best service in HPC.
Our experts will be happy to bring in their expertise
and support to assist you at any stage, from HPC design
to daily cluster operations and managed services, all
from one source.
biochemistry
theoretical chemistry
computational life sciences
physical chemistry
molecular biology
molecular dynamics
quantum chemistry
visualization
molecular docking
genome research
next generation sequencing
protein folding
molecular structures
artificial antibodies
Hartree-Fock
density-functional theory
orbital structures
Schrödinger equation
Whether you need highly performing CUDA workstations for visualizing molecular pro-
cesses, or high-performance compute clusters with up to 8 NVIDIA GPUs in each system for
simulating protein folding in three dimensions, or a parallel filesystem solution for highly
scalable HPC storage for high-performance access to massive sequencing data sets – ttec
solutions for all areas of scientific computing comprise the latest technology and serve
only one purpose: to provide the customer with a highly productive and high-performance
development and research environment that is easy to manage and easy to use.
LAMMPS
NAMD
GAMESS
Gaussian
LATTE
VMD
And many many more…
Life Sciences
3. Individual and competent consultation
Application-specific design of HPC solution
24-hour burn-in systems test
Installation and configuration by experienced HPC engineers
Extensive operations support and managed services
Swift and efficient support
Competent – Professional – Reliable – From one single source
ttec Computer B.V.
Kerkenbos 1097D
6546BB NIJMEGEN
www.ttec.nl
ttec@ttec.nl
Phone: +31 (0) 24 34 34 210
Competent – Professional – Reliable – From one single source
transtec360 services
at a glance