Different from the traditional enclosure design project of TEMPEST computer, it adopts the idea of combination of hardware and software, and designs a real-time digital signal processing system with the CPLD chip as the core which includes visual sample module, algorithm process module and display module.
The mainly working of the author in the master studying period is to design and implement some key components of ternary optical computer,it covers: coder and decoder multi-bit coder and decoder and ternary logical calculus.
As the prior Yizhichan palm computer, it's connection with PC can only be done through series bus, but this research enables Yizhichan palm computer to communicate with PC through it's USB bus interface, as a outware, and so achieve functions such as digital communication, system advancement, and adding or deleting application software.
It is shown that with the help of a computer it is possible to determine which of the equations suggested describes the sintering rate for particles by this method.
With the introduction of the computer it has become feasible to draft for a given project, at an acceptable cost of production, several alternative designs that fit the local situation, and to select from the feasible solutions the least-cost design.
For performing this method on computer it is suitable to use facilities of Poissonian and Keplerian processors.
Once the subroutines are implemented in a computer it is a simple matter to manually transcribe Evalquote into a sequence of these pseudo-instructions and thus obtain a Lisp interpreter with a minimum of programming effort.
With assistance of a polynomapproximation executed by a general purpose digital computer it is possible to measure averaged cortical evoked potentials objectively, that is to determine amplitudes and latencies of special components of the potentials.