The oligatomic (mirror) thin film memory technology is a suitable candidate for general purpose spaceborne applications in the post-1975 time frame. Capacities of around 10 to the 8th power bits can be reliably implemented with systems designed around a 335 million bit module. The recommended mode was determined following an investigation of implementation sizes ranging from an 8,000,000 to 100,000,000 bits per module. Cost, power, weight, volume, reliability, maintainability and speed were investigated. The memory includes random access, NDRO, SEC-DED, nonvolatility, and dual interface characteristics. The applications most suitable for the technology are those involving a large capacity with high speed (no latency), nonvolatility, and ran...
Magnetic memory circuitry using metal oxide semiconductor field effect transistors interfaced with p...
It is shown that the need to minimize component count, power and size, and to maximize packing densi...
Nowadays space applications are provided with a processing power absolutely overcoming the one avail...
The partially populated oligatomic mass memory feasibility model is described and evaluated. A syste...
An operation manual is presented for the oligatomic mass memory feasibility model. It includes a bri...
Development and characteristics of mass memory technologies for spacecraft application
The current status of semiconductor, magnetic, and optical memory technologies is described. Project...
Reliable miniature spaceborne memory system design, and testing of breadboard version of circuits an...
Weight, volume, and power estimates of future spaceborne memories with small bit capacitie
As NASA has evolved it's usage of spaceflight computing, memory applications have followed as well. ...
The conceptual design of a highly reliable 10 to the 8th power-bit bubble domain memory for the spac...
Radiation requirements and trends. TID: 1) >90% of NASA applications are < 100 krads-Si in piecepart...
The results are summarized of a program to demonstrate the feasibility of Bubble Domain Memory Techn...
Includes bibliographical references (pages 108-109)This paper deals with the design and analysis of ...
Breadboard model of magnetic, thin film, and plated-wire memory for spaceborne application
Magnetic memory circuitry using metal oxide semiconductor field effect transistors interfaced with p...
It is shown that the need to minimize component count, power and size, and to maximize packing densi...
Nowadays space applications are provided with a processing power absolutely overcoming the one avail...
The partially populated oligatomic mass memory feasibility model is described and evaluated. A syste...
An operation manual is presented for the oligatomic mass memory feasibility model. It includes a bri...
Development and characteristics of mass memory technologies for spacecraft application
The current status of semiconductor, magnetic, and optical memory technologies is described. Project...
Reliable miniature spaceborne memory system design, and testing of breadboard version of circuits an...
Weight, volume, and power estimates of future spaceborne memories with small bit capacitie
As NASA has evolved it's usage of spaceflight computing, memory applications have followed as well. ...
The conceptual design of a highly reliable 10 to the 8th power-bit bubble domain memory for the spac...
Radiation requirements and trends. TID: 1) >90% of NASA applications are < 100 krads-Si in piecepart...
The results are summarized of a program to demonstrate the feasibility of Bubble Domain Memory Techn...
Includes bibliographical references (pages 108-109)This paper deals with the design and analysis of ...
Breadboard model of magnetic, thin film, and plated-wire memory for spaceborne application
Magnetic memory circuitry using metal oxide semiconductor field effect transistors interfaced with p...
It is shown that the need to minimize component count, power and size, and to maximize packing densi...
Nowadays space applications are provided with a processing power absolutely overcoming the one avail...