Scalar type single systems are valid as system architectures in which the accomplishment of project goals is taken into consideration. However, it is necessary to consider the impact of stopping complex systems for the initial plan. In terms of usage, there is an impact on applications in which usage in the vector area is assumed. If doubling interconnect performance is also considered with regard to this point, we determine that it is expected to be able to ensure a respectable degree of execution efficiency even in scalar areas, by rewriting programs or performing other adjustments. However, this would result in an increased load on vector users, which would need to be lessened through support, etc. provided by registered facility use promotion institutes. Therefore, we evaluate that changing from conventional complex systems to scalar type single systems would have limited impact on users.

Scalar type single systems areserve as valid as system architectures in whichwhen the accomplishment offocus is on accomplishing project goals is taken into consideration.. However, it is necessary to consider the impact of stopping complex systems forfrom the initial plan. In terms of usage, there iswill be an impact on applications in which usage in the vector area is assumed. If doubling interconnect performance is also considered with regard to this point, we determinefind that it is expected to be ablepossible to ensure a respectable degree of execution efficiency even in scalar areas, by rewriting programs or performingmaking other adjustments. However, this would result in an increasedincrease the load on vector users, whichand the load would need to be lessenedreduced through such means as support, etc. provided by registered facilityinstitutions for facilities use promotion institutes. Therefore, we evaluate. We therefore estimate that changing from conventional complex systems to scalar type single systems would have only a limited impact on users.

Scalar type single systems serve as valid system architectures when in scenarios where the focus is on accomplishing project goals. However, it is necessary to consider the impact of stopping complex systems from the initial plan. In terms of usage, there will be an impact on applications in which usage in the vector area is assumedwhich are assumed to work in the vector space. If doubling interconnect performance is also considered with regard to thisfrom this view point, we find that it is possible to ensure a respectable degree of execution efficiency even in the scalar areasspace, by rewriting programs or making other adjustments. However, this would increase the load on vector users working in the vector space, and the load which would need to be reduced through such means such as support provided by registered institutions for facilities use promotionthat provide next-generation supercomputer facilities  (note 2). We therefore estimate that changing from conventional complex systems to scalar type single systems would have only a limited impact on users.

Scalar type single systems serve as valid system architectures when in scenarios where the focus is on accomplishing project goals. However, it is necessary to consider the impact of stopping complex systems from the initial plan. In terms of usage, there will be an impact on applications in which usage in the vector area is assumedthat are assumed to work in the vector space. If doubling interconnect performance is also considered with regard to thisfrom this view point, we find that it is possible to ensure a respectable degree of execution efficiency even in the scalar areasspace, by rewriting programs or making other adjustments. However, this would increase the load on vector users working in the vector space, and the load which would need to be reduced through such means such as support provided by registered institutions for facilities use promotionthat provide next-generation supercomputer facilities  (note 2). We therefore estimate that changing from conventional complex systems to scalar type single systems would have only a limited impact on users.

Scalar type single systems are valid as system architectures in which the accomplishment of project goals is taken into consideration. However, it is necessary to consider the impact of stopping complex systems for the initial plan. In terms of usage, there is an impact on applications in which usage in the vector area is assumed. If doubling interconnect performance is also considered with regard to this point, we determine that it is expected to be able to ensure a respectable degree of execution efficiency even in scalar areas, by rewriting programs or performing other adjustments. However, this would result in an increased load on vector users, which would need to be lessened through support, etc. provided by registered facility use promotion institutes. Therefore, we evaluate that changing from conventional complex systems to scalar type single systems would have limited impact on users.

Scalar type single systems areserve as valid as system architectures in whichwhen the accomplishment offocus is on accomplishing project goals is taken into consideration.. However, it is necessary to consider the impact of stopping complex systems forfrom the initial plan. In terms of usage, there iswill be an impact on applications in which usage in the vector area is assumed. If doubling interconnect performance is also considered with regard to this point, we determinefind that it is expected to be ablepossible to ensure a respectable degree of execution efficiency even in scalar areas, by rewriting programs or performingmaking other adjustments. However, this would result in an increasedincrease the load on vector users, whichand the load would need to be lessenedreduced through such means as support, etc. provided by registered facilityinstitutions for facilities use promotion institutes. Therefore, we evaluate. We therefore estimate that changing from conventional complex systems to scalar type single systems would have only a limited impact on users.