Analyzing Various Structural and Temperature Characteristics of Floating Gate Field Effect Transistors Applicable to Fine-Grain Logic-in-Memory Devices.

Although the von Neumann architecture-based computing system has been used for a long time, its limitations in data processing, energy consumption, etc. have led to research on various devices and circuit systems suitable for logic-in-memory (LiM) computing applications. In this paper, we analyze the temperature-dependent device and circuit characteristics of the floating gate field effect transistor (FGFET) source drain barrier (SDB) and FGFET central shallow barrier (CSB) identified in previous papers, and their applicability to LiM applications is specifically confirmed. These FGFETs have the advantage of being much more compatible with existing silicon-based complementary metal oxide semiconductor (CMOS) processes compared to devices using new materials such as ferroelectrics for LiM computing. Utilizing the 32 nm technology node, the leading-edge node where the planar metal oxide semiconductor field effect transistor structure is applied, FGFET devices were analyzed in TCAD, and an environment for analyzing circuits in HSPICE was established. To seamlessly connect FGFET-based devices and circuit analyses, compact models of FGFET-SDB and -CSBs were developed and applied to the design of ternary content-addressable memory (TCAM) and full adder (FA) circuits for LiM. In addition, depression and potential for application of FGFET devices to neural networks were analyzed. The temperature-dependent characteristics of the TCAM and FA circuits with FGFETs were analyzed as an indicator of energy and delay time, and the appropriate number of CSBs should be applied.

Comparison of selective uterine artery double ligation at the isthmic level of uterus and bipolar uterine artery coagulation in total laparoscopic hysterectomy.

In this article, we would like to compare the clinical characteristics and effectiveness of selective uterine artery double ligation and bipolar uterine artery coagulation in total laparoscopic hysterectomy (TLH) retrospectively. TLH was performed on 72 patients with selective uterine artery double ligation and on 312 patients with uterine artery bipolar coagulation in tertiary university hospital from January 2004 through January 2006. Both groups were similar with respect to age, body mass index, parities, rate of menopause and uterine weight. The mean transfusion, postoperative hospital stay and drain insertion in the selective uterine artery double ligation group were significantly lower than those in the bipolar uterine artery coagulation group in TLH, respectively (p < .05). There were no differences in the hemoglobin, hematocrite change, additional operations, operation time, rate of complication between the two kinds of operation (p > .05). In conclusion, selective uterine artery double ligation in TLH showed lower transfusion rate, less hospitalization and less discomfort due to drain than bipolar uterine artery coagulation. Also, it did not take a longer time for operation and thus provides a feasible and secure method to manage uterine vessels at the level of uterine isthmus inside of the broad ligament.