DADiSP

DADiSP (Data Analysis and Display, pronounced day-disp) is a numerical computing environment developed by DSP Development Corporation which allows one to display and manipulate data series, matrices and images with an interface similar to a spreadsheet. DADiSP is used in the study of signal processing,[1] numerical analysis, statistical and physiological data processing.[2]

DADiSP
Developer(s)DSP Development Corporation
Initial release1987 (1987)
Stable release
DADiSP 6.7 B02 / January 17, 2017 (2017-01-17)
Written inC, C++, SPL
Operating systemMicrosoft Windows
PlatformIA-32, x86-64
TypeTechnical computing
LicenseProprietary commercial software
WebsiteDADiSP
SPL
Paradigmmulti-paradigm: imperative, procedural, object-oriented, array
Designed byRandy Race
DeveloperDSP Development Corporation
First appearedlate 1990s
Stable release
6.7 / 2017
Typing disciplineDynamic, weak
OSMicrosoft Windows
Filename extensions.spl
Websitewww.dadisp.com
Influenced by
APL, C, C++

Interface

DADiSP is designed to perform technical data analysis in a spreadsheet like environment. However, unlike a typical business spreadsheet that operates on a table of cells each of which contain single scalar values, a DADiSP Worksheet consists of multiple interrelated windows where each window contains an entire series or multi-column matrix. A window not only stores the data, but also displays the data in several interactive forms, including 2D graphs, XYZ plots, 3D surfaces, images and numeric tables. Like a traditional spreadsheet, the windows are linked such that a change to the data in one window automatically updates all dependent windows both numerically and graphically.[3][4] Users manipulate data primarily through windows. A DADiSP window is normally referred to by the letter "W" followed by a window number, as in "W1". For example, the formula W1: 1..3 assigns the series values {1, 2, 3} to "W1". The formula W2: W1*W1 sets a second window to compute the square of each value in "W1" such that "W2" will contain the series {1, 4, 9}. If the values of "W1" change to {3, 5, 2, 4}, the values of "W2" automatically update to {9, 25, 4, 16}.

Programming language

DADiSP includes a series based programming language called SPL (Series Processing Language)[5] used to implement custom algorithms. SPL has a C/C++ like syntax and is incrementally compiled into intermediate bytecode, which is executed by a virtual machine. SPL supports both standard variables assigned with = and "hot" variables assigned with :=. For example, the statement A = 1..3 assigns the series {1, 2, 3} to the standard variable "A". The square of the values can be assigned with B = A * A. Variable "B" contains the series {1, 4, 9}. If "A" changes, "B" does not change because "B" preserves the values as assigned without regard to the future state of "A". However, the statement A := 1..3 creates a "hot" variable. A hot variable is analogous to a window, except hot variables do not display their data. The assignment B := A * A computes the square of the values of "A" as before, but now if "A" changes, "B" automatically updates. Setting A = {3, 5, 2, 4} causes "B" to automatically update with {9, 25, 4, 16}.

History

DADiSP was originally developed in the early 1980s as part of a research project at MIT to explore the aerodynamics of Formula One racing cars.[4] The original goal of the project was to enable researchers to quickly explore data analysis algorithms without the need for traditional programming.

Version history

  • DADiSP 6.7 B02,[6] Jan 2017
  • DADiSP 6.7 B01,[7] Oct 2015
  • DADiSP 6.5 B05,[8] Dec 2012
  • DADiSP 6.5,[9] May 2010
  • DADiSP 6.0, Sep 2002
  • DADiSP 5.0, Oct 2000
  • DADiSP 4.1, Dec 1997
  • DADiSP 4.0, Jul 1995
  • DADiSP 3.01, Feb 1993
  • DADiSP 2.0,[10] Feb 1992
  • DADiSP 1.05, May 1989
  • DADiSP 1.03, Apr 1987
gollark: If it were easy to factor large numbers like that, modern cryptography would collapse. Hopefully 2020's factors can be bruteforced by the end of January.
gollark: How do you know?
gollark: Unfortunately, available computing resources dedicated to the task haven't been able to factor it yet, but it's believed that there's a high probability it will turn out to be one.
gollark: The question we're surely all asking ourselves; will 2020 be a leap year?
gollark: Those can't carry items easily like rails can.

See also

  • List of numerical analysis software
  • Comparison of numerical analysis software

References

  1. Mahmood Nahvi. "Real-Time Digital Signal Processing Design Projects in an Undergraduate DSP Course and Laboratory" (PDF). Texas Instruments DSPS Fest, 1999.
  2. "User Interactive Software for Analysis of Human Physiological Data". Nasa Tech Briefs, December 2006.
  3. "DADiSP Makes Complex Data Analysis Faster and Easier". DSP Development Corp. Retrieved March 3, 2014.
  4. "DADiSP 2002 Escape from the cell block". Scientific Computing World. Retrieved March 3, 2014.
  5. "DADiSP SPL vs. MATLAB". DSP Development Corp. Retrieved March 3, 2014.
  6. "DADiSP 6.7 B02 Release Notes". DSP Development Corp. Retrieved January 18, 2017.
  7. "DADiSP 6.7 B01 Release Notes". DSP Development Corp. Retrieved October 30, 2015.
  8. "DADiSP 6.5 B05 Release Notes". DSP Development Corp. Retrieved March 3, 2014.
  9. "DADiSP 6.5". Scientific Computing World. Retrieved June 1, 2010.
  10. "DADiSP 2.0". The Professional Geographer. 44: 103–108. 1992. doi:10.1111/j.0033-0124.1992.00103.x.

Further reading

  • Allen Brown, Zhang Jun: First Course In Digital Signal Processing Using DADiSP, Abramis, ISBN 9781845495022
  • Charles Stephen Lessard: Signal Processing of Random Physiological Signals (Google eBook), Morgan & Claypool Publishers
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.