摘要:
A memory system according to an embodiment of the present invention comprises: a log overflow control unit that, when a third condition in which a second log accumulated in a log storage area exceeds a set value is satisfied, stops a recording operation of the second log in the log storage area by a log recording unit and causes a log recording unit to perform an update operation of a second management table in a master table and a recording operation of a first log in the log storage area, and that, when a first condition is satisfied next time, prohibits a commit operation by a log reflecting unit and causes a snapshot storing unit to perform a snapshot storing operation.
摘要:
Disclosed is an HJFET 110 which comprises: a channel layer 12 composed of InyGa1-yN (0≦y≦1); a carrier supply layer 13 composed of AlxGa1-xN (0≦x≦1), the carrier supply layer 13 being provided over the channel layer 12 and including at least one p-type layer; and a source electrode 15S, a drain electrode 15D and a gate electrode 17 which are disposed facing the channel layer 12 through the p-type layer, and provided over the carrier supply layer 13. The following relational expression is satisfied: 5.6×1011x
摘要翻译:公开了一种HJFET 110,其包括:由In y Ga 1-y N(0&lt; n 1; y&n 1; 1)构成的沟道层12; 载体供给层13由Al x Ga 1-x N(0&lt; n 1; x&n 1; 1)组成,载流子供给层13设置在沟道层12上并且包括至少一个p型层; 以及源极电极15S,漏极电极15D和栅极电极17,其通过p型层面对沟道层12,并且设置在载流子供给层13上。满足以下关系式:5.6×10 11× NA×&eegr×T [cm-2] <5.6×1013x,其中x表示所述载体供给层的Al组成比,t表示所述p型层的厚度,NA表示杂质浓度,&eegr; 表示活化比。
摘要:
According to one embodiment, a data storage apparatus comprises a first controller, a second controller, and a third controller. The first controller controls first write processing of writing data to a flash memory in accordance with a request from a host. The second controller controls second write processing of writing data to the flash memory, the second write processing is different from the first write processing.
摘要:
A semiconductor device comprises a substrate 1, a first n-type semiconductor layer 21′, a second n-type semiconductor layer 23, a p-type semiconductor layer 24, and a third n-type semiconductor layer 25′, wherein the first n-type semiconductor layer 21′, the second n-type semiconductor layer 23, the p-type semiconductor layer 24, and the third n-type semiconductor layer 25′ are laminated at the upper side of the substrate 1 in this order. The drain electrode 13 is in ohmic-contact with the first n-type semiconductor layer 21′ and the source electrode 12 is in ohmic-contact with the third n-type semiconductor layer 25′. A gate electrode 14 is arranged so as to fill an opening portion to be filled that extends from the third n-type semiconductor layer 25′ to the second n-type semiconductor layer 23, and the gate electrode 14 is in contact with the upper surface of the second n-type semiconductor layer 23, the side surfaces of the p-type semiconductor layer 24, and the side surfaces of the third n-type semiconductor layer 25′. The second n-type semiconductor layer 23 has composition that changes from the drain electrode 13 side toward the source electrode 12 side in the direction perpendicular to the plane of the substrate 1 and contains donor impurity.
摘要:
A memory system in which a first management unit includes an update information managing unit that manages update information indicating an updated section in status information stored in a volatile first storing unit, and an update information notifying unit that notifies a second management unit of the update information managed by the update information managing unit, and the second management unit includes a commit executing unit that collects, based on the update information, difference information of the status information from the status area when the update information is notified from the update information notifying unit, and causes a second storing unit to accumulate the difference information in a backup area.