TAMIC
01 / UNIQUE
TAMIC allows solving problems on the scattering of electromagnetic waves in a plasma using examples of thermonuclear reactors TOKAMAK-10 and ITER.
TAMIC allows creating unique microwave devices for terrestrial and onboard radio telescopes of space vehicles.
02 / FAST
TAMIC uses effective solutions and algorithms for electromagnetic field analysis. The new algorithm made it possible to significantly reduce computational costs from the memory and the number of arithmetic operations.
03 / EFFICIENTLY
TAMIC allows you to make calculations on a personal computer of geometries 500 x 500 wavelengths, which is equivalent to solving the problem of inversion of a matrix of rank 100 million.
WHAT IS TAMIC
OUR HISTORY
The concept of an impedance analogue of the electromagnetic space was proposed by a prominent electromagnetic scientist B.V. Sestroretskii in the 1983 year. Under the ideological leadership of Sestoretskii, a set of computational programs for the analysis of microwave devices, called TAMIC (1989-1995), was developed. The architect of the system was a pupil of Sestoretskii V. U Kustov. A pupil of Sestoretskii K.N. Klimov developed algorithms for the analysis in the time domain of two-dimensional inhomogeneous, including plasma media, on the basis of which a new complex of computer programs TAMIC (1998-2010).
PRODUCT IDEA
The concept of an impedance analogue of electromagnetic space is based on the theory of long lines and is a logical extension of the methods of direct physical modeling of Maxwell's equations. In the aftermath of this concept, the computer program complex TAMIC was developed - Turbo Analysis Microwave Integrated Circuit.
TECHNOLOGY
The electromagnetic properties of the elementary volume of space can be described by analogy with radio engineering circuits (the apparatus of Kirchhoff's equations) by RLC-schemes, or, analogously to the apparatus of telegraph equations, Rt-schemes consisting of segments of ideal lines with the same time delay t, active resistances R and ideal transformers. RLC-schemes (analysis in the frequency domain) are elementary transformed into Rt-schemes (analysis in the time domain).