This paper analyzes the process from gestation to maturity of fast electronics,describes the three-level relations formed in the development of fast electronics,i.e.that of application,technique and theory,and summari...This paper analyzes the process from gestation to maturity of fast electronics,describes the three-level relations formed in the development of fast electronics,i.e.that of application,technique and theory,and summarizes in brief the progresses in simulation of electromagnetic fields,high-speed parallel sampling,and research of time jitter.Application results of fast electronics in national economy and national major science projects are also introduced.展开更多
Sub Farm Interface is the event builder of the ATLAS(A Toroidal LHC ApparatuS) Dataflow System. It receives event fragments from the Read Out System, builds full events and sends complete events to the Event Filter ...Sub Farm Interface is the event builder of the ATLAS(A Toroidal LHC ApparatuS) Dataflow System. It receives event fragments from the Read Out System, builds full events and sends complete events to the Event Filter for high level event selection. This paper describes the implementation of the Sub Farm Interface. Furthermore, this paper introduces some issues on SFI(Sub Farm Interface) optimization and the monitoring service inside SFI.展开更多
A time-of-flight (TOF) detector has been used in the BESIII experiment to provide charged particle identification. In this paper, we present a novel high performance differential amplifier, which has been designed for...A time-of-flight (TOF) detector has been used in the BESIII experiment to provide charged particle identification. In this paper, we present a novel high performance differential amplifier, which has been designed for amplifying the signals from the detectors. The preamplifier can amplify differential signals, which can help to eliminate the common mode pickup, and increase the signal-to-noise ratio (SNR). Bilinear gain is one of the features of this preamplifier, which greatly increases the dynamic range and avoids the dead time of the preamplifier. In order to describe the bilinear gain, a 4-parameter function is developed. And this 4-parameter function can also be used in the calibration of the time walk caused by the amplitude due to the bilinear gain. The preamplifier has a gain about 10V/V with a small signal and about 1.0V/V with a large signal. The rise time of the preamp is less than 2 ns.展开更多
基金supported by the Foundation of the Key Laboratory of An-hui Province, China, the National Natural Science Foundation of China (10405023)National Major Scientific Project ([2003]1600),the National Committee of Development and Reformation
文摘This paper analyzes the process from gestation to maturity of fast electronics,describes the three-level relations formed in the development of fast electronics,i.e.that of application,technique and theory,and summarizes in brief the progresses in simulation of electromagnetic fields,high-speed parallel sampling,and research of time jitter.Application results of fast electronics in national economy and national major science projects are also introduced.
文摘Sub Farm Interface is the event builder of the ATLAS(A Toroidal LHC ApparatuS) Dataflow System. It receives event fragments from the Read Out System, builds full events and sends complete events to the Event Filter for high level event selection. This paper describes the implementation of the Sub Farm Interface. Furthermore, this paper introduces some issues on SFI(Sub Farm Interface) optimization and the monitoring service inside SFI.
基金The project supported by the major upgrade program of the Beijing Electron Positron Collider Ⅱ
文摘A time-of-flight (TOF) detector has been used in the BESIII experiment to provide charged particle identification. In this paper, we present a novel high performance differential amplifier, which has been designed for amplifying the signals from the detectors. The preamplifier can amplify differential signals, which can help to eliminate the common mode pickup, and increase the signal-to-noise ratio (SNR). Bilinear gain is one of the features of this preamplifier, which greatly increases the dynamic range and avoids the dead time of the preamplifier. In order to describe the bilinear gain, a 4-parameter function is developed. And this 4-parameter function can also be used in the calibration of the time walk caused by the amplitude due to the bilinear gain. The preamplifier has a gain about 10V/V with a small signal and about 1.0V/V with a large signal. The rise time of the preamp is less than 2 ns.
