Each process has its own virtual machine (VM), so an application's code runs in isolation from other applications.
每个进程都有自己的虚拟机,所以一个应用的代码执行是和别的应用分割开来的。
The problem of vibration isolation for the multi supporting machine installed on flexible foundations was studied by power flow and four end parameters methods.
从多支承系统出发,运用功率流和四端参数方法,研究了安装在柔性基础上设备振动的隔离问题。
Passive synthetic control of isolation and absorption vibration of machine system mounted on flexible foundation is studied in this paper.
着重研究柔性基础上机械系统的被动隔振和吸振综合控制。
According to the isolation positions of device drivers, the device driver framework can be classified into three types: kernel mode driver, user mode driver and virtual machine based driver.
目前,对设备驱动可靠性的研究着重于设备驱动与操作系统内核的有效分离,设备驱动框架按照驱动被隔离所处位置大致可分为内核态、用户态和虚拟机三种。
Based on the analysis of the structure and vibration of HCM-I Submicro CNC Ultra-precision Turning Machine, the mechanical model of active vibration isolation system is set up in the paper.
本文以HCM_I型亚微米超精密车床为研究背景,在分析了机床结构与振动的基础上,建立了机床主动隔振系统的力学模型。
Floating raft isolation system can obviously restrain vibration from machine to the hull, thus has been widely applied in naval power machinery anti-vibration noise reduction fields.
浮筏隔振系统能够明显地抑制从机器到船体的振动传递,在舰艇动力机械减振降噪领域得到了广泛应用。
A 2-DOF machine tool theoretic model is established for semi-active vibration isolation system optimization.
针对精密机床半主动隔振系统最优化问题,建立2自由度机床力学模型;
This isolation designing method has a certain value of reference to isolation design on super-low transmission ratio of super-precision machine tools and super-micro positioning mechanisms, etc.
此隔振设计方法对超精密机床、超微定位机构超低传递率隔振设计有一定的参考价值。
The shock response finite element model is established to simulate studying object which is a double-layer vibration isolation system of host machine in ship.
以某船主机双层隔振系统为对象,建立了有限元冲击响应模型。
To study the vibration isolation characteristics of the damping alloy mount, a special model test device is made to simulate the power machine and ship structure.
本文采用动力机械和船体结构的模型装置测试了阻尼合金机座的减振特性。
Secondly the vibration isolation of multi-stage rigid body system and the parametric optimize are researched, and also the parametric optimization of non-rigid machine or equipment system and non-r.
本文先后研究了多层刚性体的隔振及参数的优化,以及非刚性机组和非刚性基础隔振系统参数的优化,对刚性体系统和非刚性体系统各参数对隔振传递率的影响进行了一定的分析和探讨。
Secondly the vibration isolation of multi-stage rigid body system and the parametric optimize are researched, and also the parametric optimization of non-rigid machine or equipment system and non-r.
本文先后研究了多层刚性体的隔振及参数的优化,以及非刚性机组和非刚性基础隔振系统参数的优化,对刚性体系统和非刚性体系统各参数对隔振传递率的影响进行了一定的分析和探讨。
应用推荐