Bohemia, New York (May 2018) Data Device Corporation (DDC) is pleased to announce that our SCS750 Single Board Computers for Space will be deployed on the ESA Euclid satellite scheduled for launch in 2021. OHB Italia selected the SCS750 for its high reliability design features, high performance processing capability and TRL-9 space proven experience. OHB is the developer of the main electronic units of the two instruments of the VIS (VISible imager) and NISP (Near Infrared Spectrometer and Photometer) under a contract with the Italian Space Agency (ASI5) with the scientific contribution of INAF OABO1 (Bologna Astronomical Observatory), INFN2 (Istituto Nazionale di Fisica Nucleare) and IAPS3 (Istituto di Astrofisica e Planetologia Spaziali) for the ESA4 EUCLID mission. The ESA Euclid spacecraft includes a near-infrared space telescope designed to map the dark universe.
DDC SCS750 space computers will be used on both the Euclid’s instruments NISP and VIS. The VIS instrument provides high-quality images in the visible spectrum, to derive Dark Matter content and properties by studying the tiny deformation of galaxy shapes due to weak gravitational lensing. The focal plane array is made of 36 large area, back-illuminated, red-enhanced CCD detectors. The SCS750 will be incorporated into the Control and Data Processing Unit (CDPU), which controls the instrument, transitioning between the different instrument modes and sequencing the operations within each exposure. It also takes the science data from the CCDs Read Out Electronics (ROEs). The processor computing power allows the execution at software level of the real time lossless compression of the 36 CCDs data, including their buffering and packetization. An overall daily production of ~120 GByte is expected, which must be compressed to fit the 520 Gbit VIS daily telemetry.
The Near Infrared Spectrometer and Photometer (NISP) instrument, operating between 900 and 2000 nm, aims at providing near infrared photometry of all galaxies observed, along with VIS and near infrared low resolution spectra and redshifts of millions of galaxies. While the near infrared photometry will be used to measure the distance of galaxies seen by VIS, by observing their photometric redshifts, spectra will be used to derive accurate redshifts and distances of galaxies and their 3-dimensional position in the Universe. The NISP spectroscopic data will primarily be used to describe the distribution and clustering of galaxies and how they changed over the last 10 billion years under the effects of the dark matter and dark energy content of the Universe. The NISP focal plane is composed of a matrix of 16 2k×2k Teledyne H2RG detectors. The photometric channel will be equipped with 3 broad band filters (Y, J and H) while the spectroscopic channel will be equipped with 4 low resolution near infrared grisms to implement slitless spectroscopy observations. Each detector is controlled by a SIDECAR ASIC that performs a non-destructive multiple readout, providing a sequence of 4M pixels frames with a period of about 1.3s to the data processing units called DCU/DPU (Data Processing Unit/ Detector Control Unit). The data of the multiple non-destructive reads are preprocessed in HW implementing a MACC(G,R,D) read out scheme: for each exposure, G groups are obtained accumulating the pixel values of R consecutive frames acquired discarding D frames between groups. The group’s data are then processed by the SCS750 with a least mean square fit and compressed with lossless CCSDS121.0 compression algorithm, together with other ancillary data in order to be sent to ground for scientific analysis.
Euclid employs several of DDC’s SCS750 single board computers onboard, serving as key elements within the spacecraft’s critical imaging and data acquisition systems. “DDC’s SCS750 space computers were selected for their high performance, triple-redundant high reliability space proven computing capabilities, combined with DDC's demonstrated commitment to providing the highest levels of quality and dependability, with zero failures in space”, stated Elio Mangraviti, Head of Electronic Units & Scientific Payloads BU, OHB-I.”
DDC’s single board computers utilize reliable silicon-on-insulator Power PC processors and radiation hardened parts, including DDC’s RAD-PAK® memories, in conjunction with triple redundant processing algorithms that provide comprehensive error detection and correction. These features enable DDC’s single board computers to achieve the best SEE performance (less than one error in 80 years) to yield high performance low-risk (TRL-9) computing solutions for the most demanding space applications. Since DDC began providing its radiation hardened RAD-PAK components and single board computer solutions more than 20 years ago, we have experienced zero failures in space!
- Proven Reliability
- Proven in space: TRL-9
- Utilized with confidence in the most critical missions
- 1 in 80 year board level SEE rate (GEO)
- TID > 100krad(Si); SEL immune
- Optimized Performance
- Incorrect transactions are never generated
- Seamless error correction
- Software controlled Speed/Power: 200-1800 MIPS; 7-30W typical
- Error-corrected high-density Flash, SDRAM and EEPROM
- cPCI; MIL-STD-1553, serial/parallel, and SpaceWire interfaces available
“DDC is proud to have been selected by OHB to support the advanced functionality, dependability and long life cycle requirements of the ESA Euclid program. Our space level design and manufacturing qualifications, along with our proven reliability as a qualified supplier to NASA, ESA, JAXA and thousands of missions for over 20 years without any flight failures, enables DDC to provide OHB with the highest levels of quality, performance and support”, stated Brian Eichler, DDC’s Microelectronics International Regional Sales Manager.
OHB Italia SpA (OHB) is a leading company in Italy in the field of space systems design, development and integration. Founded in 1981, OHB has headquarters in Milan and centres of excellence in Italy. Thanks to a consolidated technical expertise, advanced technologies and highly qualified human resources, OHB Italia acts as prime contractor at systems level and as supplier of subsystems, instruments and equipment for the space segment. The company operates in both the institutional and commercial markets and works in close cooperation with space agencies, research institutes and large industrial groups.
Image courtesy: ESA / C. Carreau