Abstract: Conventional semiconductor memory devices have a problem of a data read failure caused by a leak current. To address this problem, a semiconductor memory device of the present invention including memory cells each formed of a transfer transistor, a load transistor and a drive transistor. Each of the memory cells includes: a first transfer transistor connected to a connection point of the drive transistor and the load transistor; a second transfer transistor connected between the first transfer transistor and a bit line DB; and a compensation transistor connected between a constant voltage node and a connection point of the first transfer transistor and the second transfer transistor. The compensation transistor is switched to a conductive state exclusively from at least one of the first transfer transistor and the second transfer transistor.

Abstract: A high dielectric loss tangent layer is provided in a dielectric layer between a power-supply plane and a ground plane. The high dielectric loss tangent layer is arranged such that its edge is located between the edge of the power-supply plane and the edge of the ground plane. The edge of the high dielectric loss tangent layer is preferably separated by a predetermined distance or more from the edge of the power-supply plane or the edge of the ground plane which is located on the inner side.

Abstract: A system for power-saving task processing includes a remaining power detector detecting a remaining power of a battery, and a motion information table defining a relationship between the remaining power of the battery on execution of a task and a plurality of processes for each task. Each of the plurality of processes corresponds to a different remaining power of the battery. The system also includes a task controller that chooses and executes one of the plurality of processes from the motion information table according to the detection result of the remaining power detector.