|[December 20, 2013]
Jedat Releases MatChart for Wave Form Analysis of MATLAB/Simulink System First Approach to Model Base Design Area
TOKYO --(Business Wire)--
Jedat Inc. (JASDAQ:3841), announced today to enter into Model Base
Design market which is commonly used for system level development in
variety of industries, like automotive, electric, power, system control
and others. Jedat offers Wave Form Analysis tool for MAT File, called
Jedat is a leading developer of high-performance analog and mixed-signal
design automation software for integrated circuit (IC) manufacturers,
gets into Model Base Design market by providing equivalent analysis
solutions between Model Base Design and real electric design for
electric system like automotive industry.
As a first step get into Model Based Design Market, Jedat offers
"MatChart" which provides wave form analysis tool for wave form data
generated by MATLAB®/Simulink® by MathWorks (Natick, Massachusetts 01760
USA). MatChart also gets approval MathWorks Connection Program
MatChart allows user to verify equivalency between Model Base Design and
real design which is an issue of Model Base Design. By importing MAT
file data, user can compare wave forms generated by Model Base Design
and real design, like SPICE simulation result, and user checks
equivalency of the two designs.
In near future, Jedat offers other tools in Model Base Design Market
targeting system design and electric circuit design by providing
co-design solutions. For example, by referencing a design specification
or parameters which is designed by Model Base and bring into analog
circuit design environment and gives automatic validations. Or bring
existing design resources into Model Base Design methodology to allow
quicker system design and verifications.
MatChart can be sold from January 6th, 2014. Evaluation
module can be downloadable from Jedat home page. http://www.jedat.co.jp/eng
Features of MatChart:
Wave form viewer and analysis tool replaceable scope element of
Many measurement functions to show X-axis / Y-axis value and
Without putting other component or writing a program in
MATLAB/Simulink, by just reading wave form data, user can change wave
form style which gives easy analysis of wave form.
changing to FFT (Fast Fourier Transform) analysis or smith chart can
be done by one command.
Wave form comparison and wave form operation are possible for
analysis. For example comparing wave form in Model Base Design and
SPICE simulation result from real design.
This feature allows
user to do easy equivalency verification when bringing existing design
resources into Model Base Design methodology.
Jedat offers the custom LSI design environment, the Alpha-SX series,
which automates custom LSI design such as analog LSI, power device, LCD
driver and memory for more than 30 years. Now Jedat also provides tools
to Model Base Design market based on experiences and know-hows of
software development. The distribution partners of Jedat are located in
Seoul (Korea), Beijing and Shanghai (China), Hsinchu (Taiwan) and the
U.S. West Coast. These partners provide local engineering, application,
and sales support in their respective regions.
Visit Jedat on the
Web at http://www.jedat.co.jp/eng
Headquarters : 3-4-14 Higashi-Nihonbashi, Chuo-ku, 103-00104, Tokyo
began : February 2, 2004
Capital : 760,007,110 Japanese yen
& CEO : Kawauchi, Kazuyuki
Business descriptions : Research,
development and sales of EDA software for designing IC (Integrated
Circuit) and FPD (Flat Panel Display); related consulting services
MathWorks is the leading developer of mathematical computing software.
Engineers and scientists worldwide rely on its products to accelerate
the pace of discovery, innovation, and development.
MATLAB®, the language of technical computing, is a
programming environment for algorithm development, data analysis,
visualization, and numeric computation. Simulink® is a
graphical environment for simulation and Model-Based Design of
multidomain dynamic and embedded systems. The company produces nearly
100 additional products for specialized tasks such as data analysis and
MATLAB and Simulink are used throughout the automotive, aerospace,
communications, electronics, and industrial automation industries as
fundamental tools for research and development. They are also used for
modeling and simulation in increasingly technical fields, such as
financial services and computational biology. MATLAB and Simulink enable
the design and development of a wide range of advanced products,
including automotive systems, aerospace flight control and avionics,
telecommunications and other electronics equipment, industrial
machinery, and medical devices. More than 5000 colleges and universities
around the world use MATLAB and Simulink for teaching and research in a
broad range of technical disciplines.
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