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Develop a portable electronic log-book using ASIC to support children with Insulin-Dependent Diabetes Mellitus. Integration of traditional components into ASIC reduces size, weight, and power consumption, enhancing autonomy and performance. Methodologies include VHDL description, hardware/software tools, and system diagram. Results show significant improvements in component reduction, power efficiency, and user interface simplicity. Implementation and testing involve FPGA synthesis and prototype assembly. The system offers high data storage capacity and a Decision Support System for effective diabetes management.
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10 cm ME DI M GLU IN1 IN2 3 1 3 110 12 3 3 1 4 120 10 5 3 1 5 130 15 6 8 cm 1 2 3 4 5 CAB DEL 6 7 8 9 0 FIN 1 1 2 2 3 3 4 4 5 5 CAB CAB DEL DEL 6 6 7 7 8 8 9 9 0 0 FIN FIN VHDL description FPGA Synthesis (ALTERA FLEX10K) FPGA Prototype Implementation and test NO correct YES ASIC Synthesis (SYNOPSYS, CADENCE DFII) 10 cm ME DI M GLU IN1 IN2 3 1 3 110 12 3 3 1 4 120 10 5 3 1 5 130 15 6 ASIC manufacture 8 cm Recepction, test & prototype assembly Storage information portable system based on ASIC applicable in the treatment of Diabetes • Ustoa J.R.1), Amuchástegui C.1), Ibarra A. 1), Alustiza E. 2), Martul P. 3) • Circuit Design Group / Medical Informatics Laboratory • 1) Computer Science Faculty (The University of the Basque Country) • Paseo Manuel Lardizabal, 1 –20009 - San Sebastián . Aptdo. 649. • Amuchástegui C. T. 943-44-80-00 –Fax . 943-21-93-06 - E-mail : carlos@si.ehu.es • 2) Zumaia-Getaria Health Center, 3) Cruces Hospital Zirkuitu Integratuen Diseinurako Taldea Circuit Design Group Computer Science Faculty The University of the Basque Country Cruces Hospital Zumarraga Hospital Zumaia-Getaria Health Center PI96/16 Proyect Supported by Basque Goberment. Summary/ Abstract: High autonomy, light, small size, and high data storage capacity electronic log-book based on ASIC related to a Decision Support System (DSS) for children affected by Insulin-Dependent Diabetes Mellitus (IDDM) treatment and control. Introduction: Tradicional systems based on discrete components integration is a way to optimize their technical characteristics, performance and also their size and weight, obtaining high autonomy, light, small size portable systems and easy to use because of their simple user interface. Results: Improvements obtained integrating the traditional system into an ASIC. • + 60 components. Components reduction - 3 Basic components. Display LCD + CHIP + Keyboard • Power: + 350 mW. Power reduction - Power: 12.5 mW. • 8 button batteries. Weight reduction - 1 button battery. • Size: 8 x 14 x 3 (cm) Size reduction - Size: 10 x 8 x 1 (cm) Material and methods: Hardware: Personal Computers, EPLD´S, LCD Display and other electronic components. Software: ALTERA, C, C++, ORCAD, SYNOPSIS, DFII CADENCE. Methods: VHDL Description for C.I. Syntesis., O.O.P. Basic system diagram ME DI M GLU IN1 IN2 3 1 3 110 12 3 3 1 4 120 10 5 3 1 5 130 15 6 - Display BUSY 8 DATA E, RS, RW STROBE Conditions Control Signals wr,ce data ASIC CONTROL PROCESS ACK - ASIC RAM 16 DSERIN DSEROUT COL 4 5 ROW - Keyboard Design Metodology Conclusions: * Optimize components number, power, size, weight, * Helps in data collection.
