“Floating-point processor for the highly reliable SOU-3 computer.” Execution period 1985-1986. Customer: Ministry of Communications of the USSR. The processor was mass-produced at the S.P. Korolyov Production Association from 1987 to 1990. Its performance and computational accuracy matched the world’s best special-purpose processors. It was utilized in the defense systems of the USSR and Warsaw Pact countries. Scientific supervisor: Dr. Tech. Sci., Prof. H. M. Lutskyi.
“Specialized CAD for computer systems.” The systems were created at the request of enterprises from several industrial departments (Ministry of Electronics Industry, Ministry of Radio Industry, Ministry of General Machine Building, and others) between the 1970s and 1990s and implemented at: KNIIMP, Kyiv – 1975; NVO SKB MP, Lviv – 1976; “Elektronmash” Production Association, Kyiv – 1980; NVO “Severnaya Zarya,” Leningrad – 1990. Scientific supervisor: O. V. Buzovskyi.
“Automated diagnostic systems for computer systems.” Developed in the late 1980s at the request of relevant enterprises and implemented at: NVO ZTA, Cherkasy – 1989; NVO “Krasnaya Zarya,” Leningrad – 1990. Scientific supervisor: O. V. Buzovskyi.
“Development of a series of ferroelectric storage devices with non-destructive readout.” These works were carried out throughout the 1970s and 1980s at the request of enterprises under the Ministry of Radio Industry and the Electronics Industry of the USSR (p/o G-4728, A-8941, A-1464, A-3359, etc.). Field of application: electronic defense systems. Scientific supervisor: K. H. Samofalov.
“Seismic computer SV-1,” developed in 1979 and implemented into the digital complex of NVO “Ukrgeofizyka.” The SV-1 computer is a multiprocessor computing system used as a high-speed special processor for the ES-1020 computer, where systolic data processing was organized for the first time in the USSR with a total performance of 8 million operations per second, exceeding the performance of the best world convolvers at that time from the leading firm Geospace, USA. Scientific supervisor: Yu. S. Kanevskyi.
“Computing system for a spectrum analyzer.” Execution years 1987-1988. Customer: Research Institute of Instrument Engineering, Gorky. Implemented from 1989 to 1990 as a series of computing spectrum analyzers SK4-91, SK4-92, SK4-93, SK4-94. The analyzers were mass-produced at the Moscow Radio Measuring Equipment Plant. They were built on high-speed multi-channel digital filtering blocks and Fast Fourier Transform processors. Their performance exceeded that of corresponding spectrum analyzers from leading firms like Hewlett-Packard, Nicolet, and Bruel&Kjaer due to the development and use of a new class of systolic processors, new digital filters, and information processing methods, most of which are protected by implemented inventions (A.S.: 1092517, 1095188, 1095191, 1145346, 1206802, 1264306, 1287175, 1333196). Scientific supervisor: Yu. S. Kanevskyi.
“Signal meter in rail networks for automated train speed control systems in the subway.” Execution years 1992-1993. Customer: Kyiv Metro. Implemented in 1993 in the Kyiv Metro, and in 1994-1995 in the Kharkiv and Moscow Metros. The meter was the first portable, automatic, digital, multi-channel measuring device for railway transport in the CIS. Due to the use of advanced spectral signal processing algorithms, the meter had several times higher speed compared to the best foreign devices (HP3563 by Hewlett-Packard) while costing 20 times less. Scientific supervisor: Yu. S. Kanevskyi.
“Information support for computer control and diagnostics of powerful energy facilities based on future generation artificial intelligence systems.” Budget topic 4240 from the State Fund for Fundamental Research No. 12.3/81, code “Vatra,” 1993-1994. Dedicated to the problem of intellectualizing control, diagnostics, and dispatch management of powerful energy facilities and systems based on the concept of applying the theory, mechanisms, and tools of semiotic modeling. Scientific supervisor: Dr. Tech. Sci., Prof. V. P. Shyrochyn.
“Concept, conceptual approaches, and regulatory framework for information protection in computer systems.” Budget topic No. 3001 within the national program, code “Zakhyst-41,” 1993-1994. Focused on developing a certification concept for information security software and hardware-software complexes in Ukraine, based on generally accepted protection system models, including domestic and foreign regulatory documents, taking into account the experience of Ukrainian specialists and scientists in information security, software debugging, reliability improvement, and program correctness analysis. The results were used to create the State Standard of Ukraine for Information Protection “Criteria for the Security of Computer Systems and Networks.” Scientific supervisors: H. M. Lutskyi, V. P. Shyrochyn.
“Development of hardware and software tools for monitoring information flows.” Performed within the national program “Concept, conceptual approaches, and regulatory framework for information protection in computer systems,” code “Zakhyst-41,” 1993-1994. Customer: State Service for Special Communications and Information Protection of Ukraine. Dedicated to developing technical tools for control and certification of protected computers based on specialized streaming information monitoring devices. Scientific supervisor: V. I. Pustovarov.
“Alternative version of equipment simulation systems based on Verilog HDL.” Developed under a contract between NTUU “KPI” and Aldec Inc., USA, 1998-2001. A proposed approach to increasing the verification speed of electronic circuits based on simulation modeling. Scientific supervisor: V. I. Pustovarov.
“Development of high-performance computing tools for CNC systems.” Developments are protected by 32 USSR author’s certificates and Ukrainian patents. Scientific supervisor: Dr. Tech. Sci., Prof. V. I. Zhabin.
“Complex of budget topics commissioned by the Ministry of Education and Science, Nos. 2264, 2437, 2501.” Execution years 1997–2003. A library of computing modules was created for designing computing systems on FPGAs and custom ASICs, including i8051/8052 microcontroller cores, an ARMv.4 architecture RISC microprocessor core, Fast Fourier Transform processors, discrete cosine transform processors, an MP3 audio decoder, and digital filters. Computing modules are described in VHDL. The created tools exceed world standards in speed (1.1-1.5 times), hardware costs (1.2-3 times), and power consumption. Scientific supervisor: Yu. S. Kanevskyi, lead executor: Cand. Tech. Sci., Assoc. Prof. A. M. Serhienko.
“Floating-point processor for the highly reliable SOU-3 computer.” Execution period 1985-1986. Customer: Ministry of Communications of the USSR. The processor was mass-produced at the S.P. Korolyov Production Association from 1987 to 1990. Its performance and computational accuracy matched the world’s best special-purpose processors. It was utilized in the defense systems of the USSR and Warsaw Pact countries. Scientific supervisor: Dr. Tech. Sci., Prof. H. M. Lutskyi.
“Specialized CAD for computer systems.” The systems were created at the request of enterprises from several industrial departments (Ministry of Electronics Industry, Ministry of Radio Industry, Ministry of General Machine Building, and others) between the 1970s and 1990s and implemented at: KNIIMP, Kyiv – 1975; NVO SKB MP, Lviv – 1976; “Elektronmash” Production Association, Kyiv – 1980; NVO “Severnaya Zarya,” Leningrad – 1990. Scientific supervisor: O. V. Buzovskyi.
“Automated diagnostic systems for computer systems.” Developed in the late 1980s at the request of relevant enterprises and implemented at: NVO ZTA, Cherkasy – 1989; NVO “Krasnaya Zarya,” Leningrad – 1990. Scientific supervisor: O. V. Buzovskyi.
“Development of a series of ferroelectric storage devices with non-destructive readout.” These works were carried out throughout the 1970s and 1980s at the request of enterprises under the Ministry of Radio Industry and the Electronics Industry of the USSR (p/o G-4728, A-8941, A-1464, A-3359, etc.). Field of application: electronic defense systems. Scientific supervisor: K. H. Samofalov.
“Seismic computer SV-1,” developed in 1979 and implemented into the digital complex of NVO “Ukrgeofizyka.” The SV-1 computer is a multiprocessor computing system used as a high-speed special processor for the ES-1020 computer, where systolic data processing was organized for the first time in the USSR with a total performance of 8 million operations per second, exceeding the performance of the best world convolvers at that time from the leading firm Geospace, USA. Scientific supervisor: Yu. S. Kanevskyi.
“Computing system for a spectrum analyzer.” Execution years 1987-1988. Customer: Research Institute of Instrument Engineering, Gorky. Implemented from 1989 to 1990 as a series of computing spectrum analyzers SK4-91, SK4-92, SK4-93, SK4-94. The analyzers were mass-produced at the Moscow Radio Measuring Equipment Plant. They were built on high-speed multi-channel digital filtering blocks and Fast Fourier Transform processors. Their performance exceeded that of corresponding spectrum analyzers from leading firms like Hewlett-Packard, Nicolet, and Bruel&Kjaer due to the development and use of a new class of systolic processors, new digital filters, and information processing methods, most of which are protected by implemented inventions (A.S.: 1092517, 1095188, 1095191, 1145346, 1206802, 1264306, 1287175, 1333196). Scientific supervisor: Yu. S. Kanevskyi.
“Signal meter in rail networks for automated train speed control systems in the subway.” Execution years 1992-1993. Customer: Kyiv Metro. Implemented in 1993 in the Kyiv Metro, and in 1994-1995 in the Kharkiv and Moscow Metros. The meter was the first portable, automatic, digital, multi-channel measuring device for railway transport in the CIS. Due to the use of advanced spectral signal processing algorithms, the meter had several times higher speed compared to the best foreign devices (HP3563 by Hewlett-Packard) while costing 20 times less. Scientific supervisor: Yu. S. Kanevskyi.
“Information support for computer control and diagnostics of powerful energy facilities based on future generation artificial intelligence systems.” Budget topic 4240 from the State Fund for Fundamental Research No. 12.3/81, code “Vatra,” 1993-1994. Dedicated to the problem of intellectualizing control, diagnostics, and dispatch management of powerful energy facilities and systems based on the concept of applying the theory, mechanisms, and tools of semiotic modeling. Scientific supervisor: Dr. Tech. Sci., Prof. V. P. Shyrochyn.
“Concept, conceptual approaches, and regulatory framework for information protection in computer systems.” Budget topic No. 3001 within the national program, code “Zakhyst-41,” 1993-1994. Focused on developing a certification concept for information security software and hardware-software complexes in Ukraine, based on generally accepted protection system models, including domestic and foreign regulatory documents, taking into account the experience of Ukrainian specialists and scientists in information security, software debugging, reliability improvement, and program correctness analysis. The results were used to create the State Standard of Ukraine for Information Protection “Criteria for the Security of Computer Systems and Networks.” Scientific supervisors: H. M. Lutskyi, V. P. Shyrochyn.
“Development of hardware and software tools for monitoring information flows.” Performed within the national program “Concept, conceptual approaches, and regulatory framework for information protection in computer systems,” code “Zakhyst-41,” 1993-1994. Customer: State Service for Special Communications and Information Protection of Ukraine. Dedicated to developing technical tools for control and certification of protected computers based on specialized streaming information monitoring devices. Scientific supervisor: V. I. Pustovarov.
“Alternative version of equipment simulation systems based on Verilog HDL.” Developed under a contract between NTUU “KPI” and Aldec Inc., USA, 1998-2001. A proposed approach to increasing the verification speed of electronic circuits based on simulation modeling. Scientific supervisor: V. I. Pustovarov.
“Development of high-performance computing tools for CNC systems.” Developments are protected by 32 USSR author’s certificates and Ukrainian patents. Scientific supervisor: Dr. Tech. Sci., Prof. V. I. Zhabin.
“Complex of budget topics commissioned by the Ministry of Education and Science, Nos. 2264, 2437, 2501.” Execution years 1997–2003. A library of computing modules was created for designing computing systems on FPGAs and custom ASICs, including i8051/8052 microcontroller cores, an ARMv.4 architecture RISC microprocessor core, Fast Fourier Transform processors, discrete cosine transform processors, an MP3 audio decoder, and digital filters. Computing modules are described in VHDL. The created tools exceed world standards in speed (1.1-1.5 times), hardware costs (1.2-3 times), and power consumption. Scientific supervisor: Yu. S. Kanevskyi, lead executor: Cand. Tech. Sci., Assoc. Prof. A. M. Serhienko.
“Research and development of physical, technical, and technological foundations for designing and manufacturing computer technology elements and acoustic devices on piezoelectric films.” Scientific supervisor: K. H. Samofalov, lead executor: Cand. Tech. Sci., Assoc. Prof. Ya. V. Martyniuk.
“Development of designs, technologies, and manufacturing of a ceramic board and an electron multiplier for samples of a multi-channel digital detector for a laser mass spectrometer.” Execution years 2001-2003. Customer: Institute of Applied Physics of the NASU, Sumy. Two types of digital detectors were created with aperture sizes of 10 and 50 mm and a number of digital detectors of 400 and 2000 units. The development was implemented in the experimental production of the electron microscope plant, Sumy. A resolution of at least 3000 lines on a 250 mm aperture and a sensitivity of 10⁻⁴-10⁻⁸ by mass composition was achieved in a real-time digital laser mass spectrometer, allowing the detection of all elements of the periodic table and at least 10 isotopes of each element in real time. The results achieved remain the best in the world today. Scientific supervisor: Ya. V. Martyniuk, lead executor: O. A. Verba.
