Программист c# .net / asp.net

Alexander Nikiforov
Education
1982: Master's degree, molecular physics department, Polytechnic Institute,
Ekaterinburg city, Russia.
Summary of Experience
Summary of software:
My software has been developed for next operation systems - DOS, OS-9, OS-9000, Windows-/95/98/NT/XP, QNX.
Major programming languages used - C, C++, ST, C#
Major software development tools -
Watcom C++, SCADA-FlexControl, Borland C++ Builder ver 6.0
Microsoft Visual C++ ver. 6.0, Microsoft Visual Studio 2008
Summary of hardware:
VME (FIC8234, LDA9217, CBD8110 from CES company)
FASTBUS (FVSBI9210 from CES, 1885F, 1872A, 1810CAT from LeCroy)
Texas Instruments' TMS320C40 digital signal processor
TCP/IP sockets
Employment History
1982-1984: I was concerned with numerical methods of conditional extreme search for multi parametrical functions.
1998 /2/ I’d build program software (PCES) of communication facilities of PC “Pravets-16” with ES computer. PCES throw RS232C simulates the work of an aphabetic-numerical terminal (ES-7906) that provides an exchange of files between PC and ES computers. Graphic ES computer program generates representation in graphic processor terms of PCES program, and send that threw RS232C in PC. After that PCES program reflects representation on screen PC. In particular, all these facilities provide using HPLOP package by physicists of JINR(Joint Institute for Nuclear Research).
/1/ I’d build the data acquisition (DAQ) software for FASTBUS system for measurement of analogue signals for SPHERE spectrometer. That system includes a flash ADC FASTBUS module, standard FIFO interface module connected with CAMAC input/output register. The measurement system is controlled by “Elektronika-60” microcomputer connected to the CAMAC controller. My DAQ software permits to realize communication between FASTBUS dataway and computer, data acquisition and processing, and the result representation as histograms. The FASTBUS system has been performed at the Lab of High Energies, JINR.
1991 /3/ I’d build the MEDAS program software. That’s used by on-line system for high resolution measurements of the electromagnetic and thermal properties of HTS (High Temperature Superconductors). The MEDAS software allows control of multitude of experimental parameters during measurement. It can register at the same time more than one functional dependence y=f(x) in prior given value domains [y1,y2], [x1,x2]. Dividing each value domain in the wanted number of intervals, the MEDAS package creates in the operative memory a cell for read events if those are located at some interval into domains. In general MEDAS registers event, ascribing it to the corresponding memory cell. So a sell is created by MEDAS at the moment of event registration if it’s need. Therefore MEDAS software offers the possibility of working with very big matrices. It does data processing, calculates the mean square deviation by usual formula and presents results as plots and histograms. It’s used for dynamic display of data acquisition process.
1994 /4/ I’d build DAD3D program package for data acquisition, processing and analysis in real-time system. DAD3D is intended for ON-LINE data acquisition and control of experimental physics installations by IBM PC. Being realized on the principle of multi-channels analyzer, the program DAD3D offers a mode set of different functions and facilities: a friendly user’s interface, one- and two-dimensional histogram. It’s used for dynamic display of data acquisition process.
1996 /5/ I’d build MORAINE data acquisition program package. The distributed multiprocessor system of the SPHERE spectrometer is controlled by MORAINE. This software is developed for three VME processor modules. MORANE controls the reading of event fragments into VME processor modules, reconstructs the events, transfer data for on-line analysis and records data on external media. The MORANE usage of the distributed computer system allows one to duplicate the efficiency spectrometer due to parallel reading events fragments.
2000 /6/ I’d build program software of the DSP TMS32C40 processor module for neutron spectrometers. The special-purpose software has been developed aiming to perform the process of data reception and processing with maximum simultaneity incorporated in DSP architecture. The software organizes a continues mode of data reception and transmission to DSP through the input-output via the build-in direct access channels. This allows to save DSP input-output operation and focus all the calculating abilities of DSP on processing the data of the accumulated spectra. At present, this basic DSP hard-software complex is installed on several neutron spectrometers – DN2, MURN, DN12, FSD of JINR.
2001 /12/ I’d build program software of the DSP TMS320C6701 processor. It’s used for development of hybrid MSGC detector for thermal neutral neutron imaging with a MHz data acquisition and histogramming system. The first version of the DAQ system uses PCI form factor and comprises one slow control board and up to four boards for DAQ and real time histogramming with up to 2 MHz per board. Each DAQ board incorporates four TDC of F1 chips, up to 256 Mbytes of histogram memory and 1 GFLOP DSP. The DSP software is processing the data of individual coordinates are calibrated and transformed online, and evaluating position dependent thresholds, from x/y/TOF/PH data into two-dimensional spectra with physical parameters. The spectra are accumulated in HM and dumped into PC memory after the end of run. They can also be monitored during data taking.
While last time I have done some tasks –
a) COM and OPC servers are used to communication with hardware of a accelerator control system
b) Direct import ActiveX components into C# .Net application
c) Direct import OPC server into C# .Net application.
d) At this time I’m working to create the compiler & interpreter for ‘ST’ language program.
There are my some articles:
1.FASTBUS system for measurement of analogue signals for SPHERE spectrometer, S. V. Afanasiev, A.S. Nikforov et al., JINR Rapid Communication No1[27]-88 UDK 539.1.075, Dubna 1988.
2. Use of “Pravets-16” PC as an intellectual graphic terminal of ES computer, V.K. Balashov, A.S. Nikiforov ., JINR Rapid Communication P10-88-502, Dubna 1988.
3. On-line system for high resolution measurements of the electromagnetic and thermal properties of HTS, E. Fischer, A.S. Nikiforov et al., institute of atomic physics Bucharest-Magurele, P.O.B. MG-6, ROMANIA, 1991.
4. DAD3D program package for data acquisition, processing and analysis in real-time system, A.S. Nikforov et al. JINR Rapid Communication P10-94-495, Dubna 1994.
5. Development of data acquisition system MORAINE, Nikiforov A.S. et al., JINR Rapid Communication P10-96-495, Dubna 1996.
6. Basic software-hardware spectra accumulation complex for neutron spectrometrs based on DSP TMS320C40 digital signal processor, F. V. Levchanovsky, A.S. Nikiforov, FLNP of JINR, the second international workshop on data acquisition systems for neutron experimental facilities, june 5-7,2000 Dubna, Russia.
7. Control system for IC-100 cyclotron, V. Aleinikov , P. Bondarenko , A. Krylov , A. Nikiforov, S. Paschenko, JINR, FLNR, Dubna, RUSSIA. EPAC’2004.
8. Integrating custom software and commercial SCADA, V. Aleinikov, A. Nikiforov, JINR, Dubna, Russian Federation. NEC’2003.
9. QNX based software for particle accelerator control system of FLNR, V. Aleinikov, A. Nikiforov, JINR, Dubna, Russian Federation. NEC’2005.
10. Custom HMI for commercial SCADA, V. Aleinikov, G. Dreyzina, A. Nikiforov, JINR, Dubna, Russian Federation.
11. Nuclear Instruments and Methods I Physics Research A 569 (2006) 900-904
Software modules of DAQ PCI board (DeLiDAQ) for positive-sensitive MWPC detectors with delay line readout, F.V Levchanovsky, E.I. Litvinenko, A.S. Nikiforov, B. Gebauer, Ch. Schulz, Th. Wilpert
12. Development of hybrid MSGC detector for thermal neutral neutron imaging with a MHz data acquisition and histogramming system,B. Gebauer, Ch. Schulz, F.V. Levchanovsky, A. Nikiforov et al., Nuclear Instruments and Methods I Physics Research A 471(2001) 249-253