Abstract
In the paper we show that the biologically motivated conception of the use of time-pulse encoding gives the
row of advantages (single methodological basis, universality, simplicity of tuning, training and programming et al) at
creation and designing of sensor systems with parallel input-output and processing, 2D-structures of hybrid and neuro-fuzzy
neurocomputers of next generations. We show principles of construction of programmable relational
optoelectronic time-pulse coded processors, continuous logic, order logic and temporal waves processes, that lie in basis
of the creation. We consider structure that executes extraction of analog signal of the set grade (order), sorting of analog
and time-pulse coded variables. We offer optoelectronic realization of such base relational elements of order logic,
which consists of time-pulse coded phototransformers (pulse-width and pulse-phase modulators) with direct and
complementary outputs, sorting network on logical elements and programmable commutations blocks. We make
estimations of basic technical parameters of such base devices and processors on their basis by simulation and
experimental research: power of optical input signals - 0.200-20 &mgr;W, processing time - microseconds, supply voltage -
1.5-10 V, consumption power - hundreds of microwatts per element, extended functional possibilities, training
possibilities. We discuss some aspects of possible rules and principles of training and programmable tuning on the
required function, relational operation and realization of hardware blocks for modifications of such processors. We
show as on the basis of such quasiuniversal hardware simple block and flexible programmable tuning it is possible to
create sorting machines, neural networks and hybrid data-processing systems with the untraditional numerical systems
and pictures operands.
