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Memory Testing Payload for Nano- Satellite Matthew Vis Embry-Riddle Aeronautical University, EagleSat NASA Space Grant Intern Symposium, April 2015.

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Presentation on theme: "Memory Testing Payload for Nano- Satellite Matthew Vis Embry-Riddle Aeronautical University, EagleSat NASA Space Grant Intern Symposium, April 2015."— Presentation transcript:

1 Memory Testing Payload for Nano- Satellite Matthew Vis Embry-Riddle Aeronautical University, EagleSat NASA Space Grant Intern Symposium, April 2015

2 Overview Reasons for Research Research Options Detailed Research Plan Current Progress

3 Reasons for Research Measure and analyze effects of solar radiation on different types of computer memory Gain greater understanding of the limitations and applications of different types of computer memory Give undergraduate students exposure to creating embedded systems in non-critical space applications.

4 Research Options High altitude Balloon Payload Send payload on a balloon to gain greater access to radiation Limited in altitude and little increase in radiation levels Limited exposure time Satellite Payload (Selected) Send as payload to small-scale satellite Difficult to organize launch, but helped provided by NASA Much greater exposure time and radiation levels (1) http://public.media.smithsonianmag.com/legacy_blog/10_22_2013_world-view1.jpg (2) http://images.gizmag.com/hero/cubesat-missions-1.jpg (1) (2)

5 Detailed Research Plan Create Payload for testing five (5) types of computer memory Dynamic Random Access Memory (DRAM) Static Random Access Memory (SRAM) Flash Memory (Flash) Ferroelectric Random Access Memory (FRAM) Magneto-resistive Random Access Memory (MRAM) Test for memory data upsets using software algorithms.

6 Detailed Research Plan (cont.) Payload Block Diagram

7 Detailed Research Plan (cont.) Payload Software Algorithm

8 Current Progress Four (4) of the memory chips are functioning as expected Protocols and capabilities for communication to/from On-Board Computer functioning as expected Interface between Payload and On-Board Computer fully defined Algorithm fully defined and implemented for all error types currently identified Printed Circuit Board (PCB) design complete PCB with testing points still on order

9 Future Work Add fifth memory chip functionality (DRAM) Identify more types of errors to analyze and adapt or expand algorithm accordingly Develop testing procedures to ensure completeness and quality of both Software and Hardware Test capabilities with PCB that includes testing points Test interface with On-Board Computer Build and test flight-model

10 Thank you

11 Determine Errors Algorithm

12 Analyze Errors Algorithm

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