The application of cellular arrays to NASA missions was studied. Cellular arrays are iterative logical and memory structures which can be programmed to accomplish a wide variety of logical tasks. Used in long-duration space missions, spare cellular arrays can be remotely programmed to replace faulty logical subsystems as the need arises
The design and fabrication of telemetry ground data processing equipment using commercial logic card...
The NASA/MSFC high speed CMOS/SOS standard cell family, designed to be compatible with the PR2D (Pla...
Component reliability and machine language features of onboard spacecraft digital compute
A study was conducted to determine how major improvements in spacecraft computer systems can be obta...
Advancements in hardware and software technology are summarized with specific emphasis on spacecraft...
Design of magnetic memory and logic cell arrays for associative processor useful in spaceborne appli...
While small, low-cost satellites continue to increase in capability and popularity, their reliabilit...
A programmable cellular array is investigated in this thesis. Each cell in the array is a multi-stat...
A prototype cellular logic array processor (CLAP-4), which has been indigenously constructed using T...
An electrical power system which uses a microprocessor for systems control and monitoring is describ...
Extending the ideas of reconfigurable components and self-organizing, plug-and-play systems offer so...
The design of a MOS 256-bit Random Access Memory (RAM) is discussed. Technological achievements comp...
While small, low-cost satellites continue to increase in capability and popularity, their reliabilit...
A methodology for the design of a tightly coupled, highly reliable microprocessor based computer sys...
Functional logic character implementation in breadboard design of NASA modular compute
The design and fabrication of telemetry ground data processing equipment using commercial logic card...
The NASA/MSFC high speed CMOS/SOS standard cell family, designed to be compatible with the PR2D (Pla...
Component reliability and machine language features of onboard spacecraft digital compute
A study was conducted to determine how major improvements in spacecraft computer systems can be obta...
Advancements in hardware and software technology are summarized with specific emphasis on spacecraft...
Design of magnetic memory and logic cell arrays for associative processor useful in spaceborne appli...
While small, low-cost satellites continue to increase in capability and popularity, their reliabilit...
A programmable cellular array is investigated in this thesis. Each cell in the array is a multi-stat...
A prototype cellular logic array processor (CLAP-4), which has been indigenously constructed using T...
An electrical power system which uses a microprocessor for systems control and monitoring is describ...
Extending the ideas of reconfigurable components and self-organizing, plug-and-play systems offer so...
The design of a MOS 256-bit Random Access Memory (RAM) is discussed. Technological achievements comp...
While small, low-cost satellites continue to increase in capability and popularity, their reliabilit...
A methodology for the design of a tightly coupled, highly reliable microprocessor based computer sys...
Functional logic character implementation in breadboard design of NASA modular compute
The design and fabrication of telemetry ground data processing equipment using commercial logic card...
The NASA/MSFC high speed CMOS/SOS standard cell family, designed to be compatible with the PR2D (Pla...
Component reliability and machine language features of onboard spacecraft digital compute