1、1Towards Regenerative Quantum Computing with proven positive sustainability impact White paper Towards Regenerative Quantum Computing with proven positive sustainability impact04EDITORIALGoal of the documentCHAPTER 01The general context:IT,scientific computing,and sustainability challenges1.1 Inform

2、ation Technologies role in help meet SDG1.2 Classical supercomputers footprint1.3 Addressing SDG challenges and lowering the energy footprint with quantum computersCHAPTER 02The Blaise Pascal quantum challenge approach for assessing the quantum sustainability advantage2.1 What is a use case with imp

3、act?2.2 A lifecycle approach to assess the energy/carbon footprint of quantum vs.classical computing2.3 Energy/carbon footprint of classical HPC centersCHAPTER 03Lessons drawn from the Blaise Pascal Quantum Challenge:use-cases and maturityCHAPTER 04Energy/carbon footprint of PASQAL technology4.1 PAS

4、QAL neutral atom quantum processing unit energy cost4.2 PASQAL quantum processing unit carbon footprint and benchmark with classical HPCCHAPTER 05Perspectives on sustainable quantum advantage by the research and institutional communities5.1 A Perspective by the quantum energy research community5.2 F

5、ostering key sustainable use cases:the approach of the Open Quantum Institute061018263035CONTENTS05CHAPTER 06The perspective of key High-Performance Computing centers on quantum contribution to decarbonizing HPC6.1 A French perspective by GENCI:France hybrid HPC quantum initiative(HQI)5.2 Jlich pers

6、pective on HPC integrating quantum computing and energy advantage CHAPTER 07The perspective of a key industrial end-user:EDF,the leading French energy utility CONCLUSION An agenda to move forward in search of sustainable quantum advantage REFERENCES APPENDIX The Blaise Pascal Regenerative Quantum Ch