NI ELVIS

Turn off all NI services in Windows background with one click

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contexts

1. A desktop or portable computer with NI software already installed.

2. Installed software may include LabVIEW, DAQmx, RT, FPGA and other development environments, module drivers, and so on.

3, brand new start the computer, and do not run or open any NI software case, the background of the Windows operating system will start a lot with theNI Software Related Services, as shown in Figure 1.

Figure 1 Windows 10 Task Manager NI related services list

4, even if your computer is the latest CPU and memory configuration, may be used for a period of time, it will be obvious to find the CPU occupied, the system running slower. Even when you start your computer fresh, without opening or running any NI software, this situation will always be accompanied by the appearance. The reason for this phenomenon is the NI-related services in the background that run automatically with the startup of the operating system, and this is something that still happens week after week even when no NI software is open or running.

5, the above phenomenon to LabVIEW developers to bring the trouble of periodic replacement of a higher configuration of the computer, or give up the use of NI's software.

Solutions

1. The periodic replacement of computers with higher configurations increases the budget invested by developers. In addition, the change in the software development environment caused by the replacement of computers, and thus the risk of program debugging, cannot be underestimated.

2. Abandon the use of NI's software and use another development language, which may require developers to make their own judgment.

3. For developers who do both, they can choose to make relevant configuration changes on their current computers to ameliorate the problem.

technical program

1. In the Task Manager of the Windows operating system, sort by name and find all NI-related services.

2、Operate in turn to close and stop the services running NI.

3. Use the one-click shutdown of all NI services in the Windows background script given by TLA, as shown in Figure 2.

Figure 2 One-click stopping NI background service scripts

5. Effects

1, for the Intel 7 generation i5 CPU, and the current latest Intel 13 generation CPU comparison, in the CPU architecture, performance has been unable to balance the comparison.

2, pre-installed Intel 7 generation i5 7300U, 8G RAM, 512G hard disk portable computer, before and after the use of the above script comparison, the system running speed increase significantly, like two machines.

NI ELVIS III Principles of Automatic Control Course Lab Application Video

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NI ELVIS IIINI ELVIS is an Internet-based interdisciplinary engineering teaching experimental solution that integrates all-in-one intelligent measurement instruments, embedded design, and Internet distance learning technology to serve the teaching of engineering fundamentals and integrated system design.NI ELVIS provides a complete engineering teaching solution that integrates hardware, software, and experimental resources. Based on the open hardware platform, with the help of LabVIEW programming environment, whether it is a basic course, or complex project engineering development, can be easily dealt with.

NI ELVIS Secrets You Didn't Know About Sensor Course Labs

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NI ELVISNI ELVIS is an Internet-based interdisciplinary engineering teaching experimental solution that integrates all-in-one intelligent measurement instruments, embedded design, and Internet distance learning technology to serve the teaching of engineering fundamentals and integrated system design.NI ELVIS provides a complete engineering teaching solution that integrates hardware, software, and experimental resources. Based on the open hardware platform, with the help of LabVIEW programming environment, whether it is a basic course, or complex project engineering development, can be easily dealt with.

TLA-E series course experiment kit

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The TLA-E series of course lab kits are for NI ELVIS I/II/II+, and the lab software uses DAQWare for NI DAQmx.

Hardware applicable: NI ELVIS I (Traditional), ELVIS II|ELVIS II+

Software: DAQWare for NI DAQmx

TLA-001E Circuit Principles Course Lab Kit

serial numberExperimental ProjectsELVIS IELVIS IIELVIS II+
1Mapping the volt-ampere characteristics of circuit components
2Verification of Kirchhoff's law
3Verification of the superposition principle
4Verification of Davignan's and Norton's theorems
5Experimental study of controlled sources VCVS, VCCS, CCVS, CCCS*
6Response testing of RC first order circuits
7A study of second-order dynamic circuit response
8Study of series resonant circuits of R, L, and C
9RC frequency selective network characterization
10Measurement of impedance characteristics of R, L and C components
*Requires the use of a 2nd lab kit

TLA-002E Analog Circuit Course Experiment Kit

serial numberExperimental ProjectsELVIS IELVIS IIELVIS II+
1Transistor Single-Stage Amplifier Circuit
2Transistor two-stage amplifier circuit
3Transistor Negative Feedback Amplifier Circuit
4Transistor emitter follower
5Transistor Differential Amplifier Circuit
6Operational Amplifier Proportional Summing Operational Circuit
7Integral and Differential Circuits
8Waveform generation circuit
9active filter
10voltage comparator
11IC RC Sine Wave Oscillator
12Integrated Voltage Regulator Experiment
13Waveform converter circuit
14Field Effect Transistor Amplifier Circuit

TLA-003E Digital Circuit Course Experiment Kit

serial numberExperimental ProjectsELVIS IELVIS IIELVIS II+
1Gate Logic Functions and Tests
2Combinatorial logic circuits Ⅰ (half adder, full adder)
3Combination Circuit II (Decoder and Data Selector)
4flip-flop (electronics)
5Timing circuits (counters, shift registers)
6Design and logic function verification of combinational logic circuits
7D/A, A/D converter
8Application of 555 time base circuits
9Integrated Circuits Multiple Counters Combined Application

TLA-004E Sensor Course Lab Kit

serial numberExperimental ProjectsELVIS IELVIS IIELVIS II+
1Photoresistor Characterization Experiment
2Silicon photovoltaic cell characterization experiment
3Photodiode Characterization Experiment
4Phototransistor Characterization Experiment
5PIN diode characterization experiment*
6Experiments on the Characterization of Pyroelectric Infrared Sensors
7DC motor speed measurement experiment based on slot photocoupler
8Hall IC-based DC motor speed measurement and speed control experiment
9Thermistor temperature measurement experiment
10LM35 temperature measurement experiment
11Thermocouple temperature measurement experiment
12Relative Humidity Measurement Experiment
13AD592 temperature measurement experiment
14Experiments on the Characterization of Metal Foil Strain Gauges
15Electret microphone audio measurement experiment
16Platinum resistance temperature measurement experiment

TLA-005E Signal and System Course Lab Kit

serial numberExperimental ProjectsELVIS IELVIS IIELVIS II+
1Zero Input Response and Zero State Response
2Synthesis and decomposition of signals
3Second order series resonance and parallel resonance
4First Order Network Characterization Measurements
5Second-order network characterization measurements
6Feedback systems and system frequency response characteristics
7Experiments with second-order Butterworth filters
8Signal Sampling and Recovery
9RC Oscillator Characteristics

TLA-007E Automatic Control Principles Course Experiment Kit

serial numberExperimental ProjectsELVIS IELVIS IIELVIS II+
1Typical link circuit simulation experiment
2Dynamic performance and stability analysis of typical systems
3Typical Link Frequency Characteristics Measurements
4Linear system series correction
5Static characteristics of a typical nonlinear link
6Phase plane method for analyzing nonlinear systems
7Functional description of nonlinear systems
8Arbitrary configuration of control system poles
9Sampling system analysis
10Analog PID control experiment
11DC motor speed measurement and PID control experiment
12Temperature measurement and PID control experiment
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