As space-based imagery-intelligence systems become increasingly complex, processing units are needed that can process the extra data these systems seek to collect. However, the space environment presents a number of threats, such as ambient or malicious radiation, that can damage and otherwise interfere with electronic systems. There is a need, then, for processors that can tolerate radiation-induced faults, and that also have sufficient computational power to handle the large flow of data they encounter. This research investigates one potential solution: a multi-core processor that is radiation-hardened and designed to provide highly parallelized MIMD execution of applicable workloads. A variety of benchmarking programs are used to explore...
In the recent years there has been an increasing interest in artificial intelligence (AI) and machin...
Future space exploration and exploitation missions will require significantly increased autonomy of ...
A graphics processing capability will be required for deep space missions and must include a range o...
As space-based imagery-intelligence systems become increasingly complex, processing units are needed...
Over the last years there has been an accelerated increase in the requirements for On-Board Processi...
Computing power requirements of space applications, in particular for payload functions, are constan...
Abstract—The current generation of radiation-hardened general-purpose processors, such as the RAD750...
The usage of terrestrial processors in space applications is not straightforward, as processors in s...
Nowadays, a number of processor cores are available, either as soft intellectual property (IP) cores...
Future NASA missions will depend on radiation-hardened, power-efficient processing systems-on-a-chip...
With increased sensor data rates, and limited downlink capability, NASA missions have increased dema...
The increasing demand for onboard calculation capability produces the necessity for high performance...
This paper presents a new concept of building a high performance, radiation hardened computer from C...
Computational benchmarking of on-board processing performance for space applications has often been ...
This paper analyzes the suitability of single-instruction multiple data (SIMD) extensions of current...
In the recent years there has been an increasing interest in artificial intelligence (AI) and machin...
Future space exploration and exploitation missions will require significantly increased autonomy of ...
A graphics processing capability will be required for deep space missions and must include a range o...
As space-based imagery-intelligence systems become increasingly complex, processing units are needed...
Over the last years there has been an accelerated increase in the requirements for On-Board Processi...
Computing power requirements of space applications, in particular for payload functions, are constan...
Abstract—The current generation of radiation-hardened general-purpose processors, such as the RAD750...
The usage of terrestrial processors in space applications is not straightforward, as processors in s...
Nowadays, a number of processor cores are available, either as soft intellectual property (IP) cores...
Future NASA missions will depend on radiation-hardened, power-efficient processing systems-on-a-chip...
With increased sensor data rates, and limited downlink capability, NASA missions have increased dema...
The increasing demand for onboard calculation capability produces the necessity for high performance...
This paper presents a new concept of building a high performance, radiation hardened computer from C...
Computational benchmarking of on-board processing performance for space applications has often been ...
This paper analyzes the suitability of single-instruction multiple data (SIMD) extensions of current...
In the recent years there has been an increasing interest in artificial intelligence (AI) and machin...
Future space exploration and exploitation missions will require significantly increased autonomy of ...
A graphics processing capability will be required for deep space missions and must include a range o...