setup+mode

setup mode

режим настройки (инструмента) ;
режим наладки( станка)

setup mode

режим настройки ( инструмента); режим наладки ( станка)

setup mode

1) Техника: режим наладки (станка)

2) Космонавтика: отладочный режим

3) Автоматика: режим настройки (инструмента)

setup mode

режим настройки ( инструмента); режим наладки ( станка)

setup mode

режим настройки

setup mode

отладочный режим

save setup mode

Музыка: режим записи установочных данных во внешнюю память

save setup mode

режим записи установочных данных во внешнюю память с целью сохранения

mode

1) вид; тип; характер

2) мода, вид [форма, тип\] колебаний; вид [тип\] волн

3) способ; метод; принцип

4) режим ( работы)

5) вчт. состояние

6) швейн. мода

•

-
ablative pit-forming mode
-
abnormal mode
-
acceleration mode
-
access mode
-
accumulation mode
-
acoustic mode
-
acquisition mode
-
active mode
-
adaptive control mode
-
addressing mode
-
air-liquefaction mode
-
alternate mode
-
anticipation mode
-
approach mode
-
assemble mode
-
astable vibration mode
-
astable mode
-
automatic mode
-
automatic opening mode
-
automatic skinning mode
-
autopilot heading mode
-
autoposition mode
-
avalanche mode
-
axial mode
-
background mode
-
backward mode
-
backward propagating mode
-
backward scattering mode
-
backward scatter mode
-
backward traveling mode
-
bare resonator mode
-
basic mode
-
batch mode
-
birefringent mode
-
block mode
-
block-multiplex mode
-
bound modes
-
broadcast mode
-
buckling mode
-
burst mode
-
calibration mode
-
capture mode
-
cavity flipping mode
-
cavity mode
-
central mode
-
character generation mode
-
character mode
-
characteristic mode
-
charge-coupling mode
-
circularly polarized mode
-
cladding mode
-
clockwise polarized mode
-
coherently locked modes
-
cold mode
-
collective modes
-
command mode
-
common failure mode
-
common mode
-
compatibility mode
-
competing modes
-
compute mode
-
confined mode
-
constant cutting speed mode
-
constant speed mode
-
contention mode
-
continuous mode
-
continuous path mode
-
continuous-wave mode
-
contour modes
-
contradirectional modes
-
control mode
-
conversational mode
-
cooling mode
-
co-orbital mode
-
coplanar mode
-
core-guided mode
-
core mode
-
counterclockwise polarized mode
-
counterrotating circularly polarized modes
-
counting mode
-
coupled modes
-
cross polarized modes
-
cubic mode
-
current mode
-
current saving mode
-
cutoff mode
-
cutting mode
-
damped mode
-
data-processing mode
-
Debye-like mode
-
Debye mode
-
deceleration mode
-
deflected mode
-
degenerated mode
-
degenerate mode
-
depletion mode
-
design mode
-
dialog mode
-
difference mode
-
differential mode
-
diffraction-limited mode
-
diffusive mode
-
discrete mode
-
dispersion modes
-
display mode
-
distributed-feedback mode
-
DNC mode
-
dominant mode
-
double-pass mode
-
drift mode
-
dual-processing mode
-
duplex mode
-
dynamic mode
-
dynamic-scattering mode
-
E mode
-
edge mode
-
edit mode
-
eigen mode
-
electromagnetic mode
-
elementary mode
-
Emn mode
-
emulation mode
-
energy dissipating mode
-
enhancement mode
-
equal-loss modes
-
equally spaced modes
-
erase mode
-
evanescent mode
-
even mode
-
excited mode
-
exciting mode
-
executive mode
-
extensional mode
-
extraordinary mode
-
Fabry-Perot mode
-
face shear modes
-
fast mode
-
faulted mode
-
fiber mode
-
filamentary mode
-
first mode
-
flexural mode
-
forced mode
-
force mode
-
foreground mode
-
foreground-background mode
-
forward mode
-
forward propagating mode
-
forward scattering mode
-
forward scatter mode
-
forward shear mode
-
forward traveling mode
-
fracture mode
-
free-running mode
-
free-space mode
-
frequency-division multiplex mode
-
frequency-shift-keying mode
-
full program mode
-
full-duplex mode
-
fundamental mode
-
gated mode
-
gate mode
-
Gaussian mode
-
generator mode
-
go-ahead mode
-
graphics mode
-
graphic mode
-
guidance mode
-
guided-wave mode
-
guided mode
-
half-duplex mode
-
heating mode
-
height-lock mode
-
higher-order mode
-
high-frequency mode
-
high-loss mode
-
high-pass mode
-
high-resolution mode
-
Hmn mode
-
horizontally polarized mode
-
idler mode
-
independent mode
-
index mode
-
injected mode
-
injection-locked mode
-
in-phase modes
-
in-plane mode
-
insert mode
-
integer mode
-
interacting modes
-
interactive mode
-
internally trapped mode
-
interpretive mode
-
interrupt mode
-
inverter mode
-
isolated mode
-
jog mode
-
kernel mode
-
keyboard mode
-
laser mode
-
lasing mode
-
lattice mode
-
launched mode
-
leaking mode
-
leaky mode
-
left-hand polarized mode
-
left polarized mode
-
length extentional mode
-
length flexural mode
-
length modes
-
length-width flexural mode
-
light mode
-
linearly polarized mode
-
load mode
-
local mode
-
locate mode
-
lock mode
-
long coherence length mode
-
long wavelength mode
-
longitudinal mode
-
loopback mode
-
low-frequency mode
-
low-pass mode
-
low-resolution mode
-
lugdown mode
-
macro-by-macro mode
-
magnetron mode
-
main mode
-
malfunction mode
-
manual mode
-
manual skinning mode
-
mapping mode
-
maser mode
-
master mode
-
matched mode
-
measurement mode
-
message mode
-
mirror image mode
-
mixed mode
-
mode of behavior
-
mode of deformation
-
mode of excitation
-
mode of failure
-
mode of functioning
-
mode of propagation
-
mode of test
-
mode of transport
-
mode-locked mode
-
mode-match mode
-
monopulse mode
-
move mode
-
multiple-frame mode
-
multiplexed mode
-
multiplex mode
-
multitask mode
-
native mode
-
natural mode
-
nonaxial mode
-
noncounting mode
-
nondegenerate mode
-
nondegenerative mode
-
nonoscillating mode
-
nonpropagating mode
-
nonradiative mode
-
nonresonant mode
-
nonspiking mode
-
nontransparent mode
-
normal mode
-
odd mode
-
off mode
-
off-axis mode
-
off-design mode
-
off-line mode
-
off-normal mode
-
on-line mode
-
on-link mode
-
opening fracture mode
-
opening mode
-
operating mode
-
optical mode
-
ordinary mode
-
original mode
-
orthogonally polarized modes
-
oscillating mode
-
oscillation mode
-
oscillatory mode
-
out-of-plane mode
-
overtype mode
-
parallel mode
-
parametric mode
-
parasitic mode
-
partially suppressed mode
-
path following mode
-
path modifying mode
-
penetration mode
-
periodic mode
-
perturbed mode
-
photographing mode
-
photon-counting mode
-
pipelined mode
-
plane mode
-
plane polarized mode
-
plasma mode
-
plasma-guide mode
-
playback mode
-
point-to-point path mode
-
polarization mode
-
polarization-bistable mode
-
polarized mode
-
posttrigger mode
-
power-down mode
-
p-polarized mode
-
pretrigger mode
-
principal mode
-
priviledged mode
-
propagating mode
-
propagation mode
-
pulse counting mode
-
pulsed mode
-
pump mode
-
push-pull mode
-
Q-spoiled mode
-
Q-switched mode
-
quadrupole mode
-
quantum noise limited mode
-
radial mode
-
radially polarized mode
-
radiating mode
-
radiation mode
-
rail mode
-
ranging mode
-
ready mode
-
real-time mode
-
receive mode
-
record mode
-
rectifier mode
-
reflected mode
-
reflection mode
-
reflective mode
-
refracted mode
-
refrigeration mode
-
repetitive Q-switched mode
-
request mode
-
resonant mode
-
resonator mode
-
retropropulsion mode
-
return beam mode
-
reverse bias mode
-
reversible recording mode
-
right-hand polarized mode
-
right polarized mode
-
run mode
-
sample-and-hold mode
-
satellite mode
-
saturation mode
-
scanning mode
-
scan mode
-
scope mode
-
screen mode
-
search mode
-
selected mode
-
selector mode
-
self-ammoniation mode
-
self-heating mode
-
self-locked mode
-
self-Q-switched mode
-
self-refresh mode
-
self-reporting mode
-
self-trapping mode
-
serial mode
-
series mode
-
setup mode
-
severe wear mode
-
shear mode of crack initiation
-
shear mode
-
side mode
-
signal mode
-
simplex mode
-
simulation mode
-
single block mode
-
single mode
-
single Q-switched mode
-
single-channel mode
-
single-character mode
-
single-pulse mode
-
single-step mode
-
slave mode
-
slightly coupled modes
-
spatial mode
-
spectral mode
-
spiking mode
-
split-screen mode
-
s-polarized mode
-
spurious mode
-
spurious pulse mode
-
square mode
-
stable mode
-
standby mode
-
standing-wave mode
-
start-stop mode
-
static mode
-
stationary mode
-
steady state mode
-
stiffened mode
-
still-frame mode
-
storage mode
-
store-and-forward mode
-
stretching mode
-
stripped cladding modes
-
strong mode
-
strongly excited mode
-
substrate mode
-
superradiant mode
-
supervisor mode
-
switching mode
-
symmetric modes
-
synchronously pumped mode
-
tape auto mode
-
teaching mode
-
tearing mode
-
thickness-extensional modes
-
time compression mode
-
time mode
-
time-difference mode
-
time-shared mode
-
torsional modes
-
track-and-hold mode
-
tracking mode
-
transcribe mode
-
transfer mode
-
transformed mode
-
transient mode
-
transit mode
-
transit-time mode
-
transmission mode
-
transparent mode
-
transverse mode
-
TRAPATT mode
-
trapped mode
-
trapped plasma avalanche transit time mode
-
traveling-wave mode
-
triggering mode
-
trimming mode
-
truncated mode
-
tuning mode
-
tunneling mode
-
twist mode
-
two-level mode
-
unattended mode
-
uncoupled modes
-
undamped mode
-
unmanned mode
-
unperturbed mode
-
unstable mode
-
unstiffened mode
-
vertically polarized mode
-
vibration mode
-
vibration-free mode
-
virtual mode
-
voting mode
-
waiting mode
-
walk-off mode
-
warped mode
-
wave mode
-
wavefront watched modes
-
waveguide mode
-
wavy slip mode
-
wear mode
-
whispering modes
-
whistler mode
-
width modes
-
write mode
-
zero-order mode

mode

1) режим

2) состояние

3) мода, тип ( волны)

•

- access mode

- acoustic mode
- active mode
- adaptive mode
- alternate mode
- ANS/FAX mode
- answering mode
- assemble mode
- asymmetrical mode
- asynchronous balanced mode
- asynchronous transfer mode
- authorized reception mode
- auto document mode
- autoinformer mode
- automatic mode
- automatic reception mode
- auto-night mode
- backup mode
- basic control mode
- biharmonical mode
- bound mode
- buffer mode
- byte mode
- center mark mode
- channel mode
- circuit-transfer mode
- cladding mode
- client-server mode
- coasting mode
- combined mode
- command mode
- common mode
- communication mode
- confidential mode
- continuous emission mode
- continuous mode
- conversational mode
- correction mode
- coupled modes
- cutoff mode
- data mode
- data-processing mode
- day/night mode
- delayed ARM mode
- DEMO mode
- detail mode
- detection mode
- direct sending mode
- display mode
- dual mode
- duplex mode
- erase mode
- evanescent mode
- executive mode
- expansion modes
- external synchronization mode
- Fax mode
- fine mode
- first-type oscillation mode
- forced mode
- frame mode
- fundamental mode
- generator mode
- ghost mode
- group mode
- guard mode
- half-duplex mode
- half-speed mode
- half-tone mode
- hierarchical mode
- high-power mode
- holding mode
- hollow-beam mode
- home-only mode
- hybrid mode
- idling mode
- instant ARM mode
- internal synchronization mode
- interrupt mode
- interruptible current mode
- inversed mode
- key mode
- landscape mode
- leaky mode
- light-tensioned mode
- limiting mode
- linear mode
- line-art mode
- line-hold mode
- line-holding mode
- listening mode
- local mode
- lock mode
- long-distance mode
- long-play mode
- long-time mode
- loudly mode
- low signal mode
- lugdown mode
- macroblock mode
- magnetostatic mode
- manual mode
- master mode
- matched operation mode
- matching mode
- memory lock mode
- minimal mode
- mode of behavior
- modulated mode
- monitor mode
- mono mode
- multicopy mode
- multiplex mode
- multipoint mode
- multisort document reception mode
- net mode
- nonpublic mode
- nontransparent mode
- normal mode
- off mode
- off-normal mode
- on-line mode
- on-link mode
- open-phase mode
- operating mode
- orthonormal modes
- overseas mode
- overtensioned mode
- parallel mode
- part load mode
- partial load mode
- peak mode
- periodic mode
- phone-only mode
- photo mode
- photodiode mode
- photogalvanic mode
- phototransistor mode
- pilot mode
- playback mode
- polling reception mode
- polling standby mode
- polling-transmission mode
- portrait mode
- potential mode
- precritical mode
- prediction mode
- printer mode
- private mode
- propagation mode
- pulsed mode
- quasi-cyclic mode
- quasi-key mode
- quick-record mode
- radiation mode
- rated power mode
- real-time mode
- receive mode
- recursive short-time mode
- redial mode
- remote-receiving mode
- rental mode
- rest mode
- reversing mode
- running-wave mode
- sample-and-hold mode
- saturation mode
- save dial mode
- scan mode
- second-type oscillation mode
- self-exciting oscillation mode
- self-oscillating mode
- send later mode
- sequential lossless mode
- serial mode
- series mode
- servicing mode
- setup mode
- shared fax mode
- short-time mode
- silence detection mode
- silently mode
- sleep mode
- soft self-exciting mode
- soft-control mode
- soft-controlling mode
- sound mode
- special scanning mode
- standard mode
- standby mode
- standing wave mode
- start mode
- starting mode
- start-stop mode
- stereo mode
- stop mode
- storage mode
- substitute reception mode
- superfine mode
- switching mode
- symmetrical mode
- synchronous-transfer mode
- synchronous-transmission mode
- TEL mode
- TEL/FAX mode
- telegraph mode
- telephone mode
- tensioned mode
- transfer mode
- transmission dead-line mode
- transmission mode
- transverse electric-and-magnetic mode
- transverse magnetic mode
- transverse-electric mode
- traveling wave mode
- triggering mode
- tuning mode
- uncoupled modes
- undertensioned mode
- unlock mode
- unstable mode
- valve mode
- vibrating mode
- voice-call mode
- waiting mode
- winding mode
- wireless-access mode
- XX mode

mode

1) способ; метод; режим ( работы), мода

2) форма; тип; вид

3) форма колебаний, вид колебаний

4) состояние

5) наиболее вероятное значение

•

in an interactive mode — совместно с основными работами

in bar mode — при подаче прутка через отверстие в шпинделе ( токарного станка)

in one transfer mode — за один цикл передачи ( данных);

in rotary mode — при вращении

in shaft mode — при установке детали в центрах, при установке обрабатываемой детали в центрах (напр. токарного станка)

in the ready mode — в состоянии готовности

in traverse mode — при линейном перемещении

- 2D mode

- 3D mode
- acceleration mode
- accept/reject mode
- adapt mode
- adaptive control mode
- anticipation mode
- approach mode
- automatic mode of operation
- automatic mode
- automatic skinning mode
- autoposition mode
- batch mode
- closed loop position mode
- CNC mode
- command mode
- compliant mode
- constant cutting speed mode
- constant speed mode
- continuous machine control mode
- continuous mode
- continuous path mode
- contouring mode
- control mode
- conversational mode
- creep mode
- cruise mode
- cubic mode
- dash mode
- deceleration mode
- decentralized mode
- dialog mode
- DNC communication mode
- DNC mode
- dual-range cutting speed mode
- dwell mode
- eigen mode
- emulation mode
- extreme mode
- failsafe mode
- failure mode
- feed-through mode
- flexural nth mode
- full program mode
- hierarchical mode
- horizontal mode
- idle mode
- interactive graphics mode
- interactive mode
- interrupt mode
- iteration mode
- jog mode
- joystick mode
- learn mode
- machining mode
- manual data input mode of operation
- manual mode of operation
- manual skinning mode
- minimally manned mode
- mirror image mode
- mode of inspection
- mode of operation
- mode of servicing
- mode of test
- mode of vibration
- natural mode
- NC mode
- off-line mode
- one-off mode
- one-step drilling mode
- open loop mode
- operating mode
- operation mode
- part manual mode
- pass-through mode
- peck-feed mode
- playback mode
- point-to-point path mode
- ptp path mode
- pulsed mode of laser
- pulsed mode
- question-and-answer mode
- rapid traverse mode
- read-in mode
- replay mode
- retract mode
- rotary mode
- rotation mode
- run mode
- sets-of-parts mode
- setup mode
- single block mode of operation
- single block mode
- single-cycle mode
- skip mode
- skip-feed drill mode
- snap mode
- solving mode
- square mode
- standalone mode
- step-feed drilling mode
- system mode
- tape auto mode
- tape mode
- teach mode
- teaching mode
- track/touch mode
- tracking mode
- translation mode
- translucent mode
- traverse mode
- unattended mode
- unmanned mode
- variable speed mode
- vertical mode
- vibration mode
- vibrational mode
- vibration-free mode
- virtual call mode
- zoom mode

Mini-Setup

"A subset of GUI-mode Setup, Mini-Setup is the first-run experience on the Windows Server2003 family. Mini-Setup prompts for user-specific information, detects new hardware, and regenerates system IDs."

إعداد مصغر

administrator setup

A mode of setup that allows network administrators to silently deploy to client computers.

إعداد المسؤول

text-mode Setup

"The second of the three stages of Setup, where the basic hardware of the computer (CPU, motherboard, hard disk controllers, file systems, and memory) is determined, the base operating system necessary to continue is installed, and specified folders are created."

إعداد في وضع-النص

text-mode Setup

Майкрософт: установка в текстовом режиме

режим настройки

setup mode, tuning mode

режим настройки

( инструмента) setup mode, tuning mode

режим наладки

debugging conditions, ( станка) setup mode

BIOS

['baios] n. shkurtesë nga b asic i nput o utput s ystem ( BIOS) sistemi themelor për hyrje-dalje ( informatikë)

What is BIOS?

BIOS is an acronym for Basic Input/Output System. It is the boot firmware program on a PC, and controls the computer from the time you start it up until the operating system takes over. When you turn on a PC, the BIOS first conducts a basic hardware check, called a Power-On Self Test (POST), to determine whether all of the attachments are present and working. Then it loads the operating system into your computer's random access memory, or RAM.

The BIOS also manages data flow between the computer's operating system and attached devices such as the hard disk, video card, keyboard, mouse, and printer.

The BIOS stores the date, the time, and your system configuration information in a battery-powered, non-volatile memory chip, called a CMOS (Complementary Metal Oxide Semiconductor) after its manufacturing process.

Although the BIOS is standardized and should rarely require updating, some older BIOS chips may not accommodate new hardware devices. Before the early 1990s, you couldn't update the BIOS without removing and replacing its ROM chip. Contemporary BIOS resides on memory chips such as flash chips or EEPROM (Electrically Erasable Programmable Read-Only Memory), so that you can update the BIOS yourself if necessary.

For detailed information about BIOS updates, visit:

What is firmware?

Firmware consists of programs installed semi-permanently into memory, using various types of programmable ROM chips, such as PROMS, EPROMs, EEPROMs, and flash chips.

Firmware is non-volatile, and will remain in memory after you turn the system off.

Often, the term firmware is used to refer specifically to boot firmware, which controls a computer from the time that it is turned on until the primary operating system has taken over. Boot firmware's main function is to initialize the hardware and then to boot (load and execute) the primary operating system. On PCs, the boot firmware is usually referred to as the BIOS.

What is the difference between memory and disk storage?

Memory and disk storage both refer to internal storage space in a computer.

The term memory usually means RAM (Random Access Memory). To refer to hard drive storage, the terms disk space or storage are usually used.

Typically, computers have much less memory than disk space, because RAM is much more expensive per megabyte than a hard disk. Today, a typical desktop computer might come with 512MB of RAM, and a 40 gigabyte hard disk.

Virtual memory is disk space that has been designated to act like RAM.

Computers also contain a small amount of ROM, or read-only memory, containing permanent or semi-permanent (firmware) instructions for checking hardware and starting up the computer. On a PC, this is called the BIOS.

What is RAM?

RAM stands for Random Access Memory. RAM provides space for your computer to read and write data to be accessed by the CPU (central processing unit). When people refer to a computer's memory, they usually mean its RAM.

New computers typically come with at least 256 megabytes (MB) of RAM installed, and can be upgraded to 512MB or even a gigabyte or more.

If you add more RAM to your computer, you reduce the number of times your CPU must read data from your hard disk. This usually allows your computer to work considerably faster, as RAM is many times faster than a hard disk.

RAM is volatile, so data stored in RAM stays there only as long as your computer is running. As soon as you turn the computer off, the data stored in RAM disappears.

When you turn your computer on again, your computer's boot firmware (called BIOS on a PC) uses instructions stored semi-permanently in ROM chips to read your operating system and related files from the disk and load them back into RAM.

Note: On a PC, different parts of RAM may be more or less easily accessible to programs. For example, cache RAM is made up of very high-speed RAM chips which sit between the CPU and main RAM, storing (i.e., caching) memory accesses by the CPU. Cache RAM helps to alleviate the gap between the speed of a CPU's megahertz rating and the ability of RAM to respond and deliver data. It reduces how often the CPU must wait for data from main memory.

What is ROM?

ROM is an acronym for Read-Only Memory. It refers to computer memory chips containing permanent or semi-permanent data. Unlike RAM, ROM is non-volatile; even after you turn off your computer, the contents of ROM will remain.

Almost every computer comes with a small amount of ROM containing the boot firmware. This consists of a few kilobytes of code that tell the computer what to do when it starts up, e.g., running hardware diagnostics and loading the operating system into RAM. On a PC, the boot firmware is called the BIOS.

Originally, ROM was actually read-only. To update the programs in ROM, you had to remove and physically replace your ROM chips. Contemporary versions of ROM allow some limited rewriting, so you can usually upgrade firmware such as the BIOS by using installation software. Rewritable ROM chips include PROMs (programmable read-only memory), EPROMs (erasable read-only memory), EEPROMs (electrically erasable programmable read-only memory), and a common variation of EEPROMs called flash memory.

What is an ACPI BIOS?

ACPI is an acronym that stands for Advanced Configuration and Power Interface, a power management specification developed by Intel, Microsoft, and Toshiba. ACPI support is built into Windows 98 and later operating systems. ACPI is designed to allow the operating system to control the amount of power provided to each device or peripheral attached to the computer system. This provides much more stable and efficient power management and makes it possible for the operating system to turn off selected devices, such as a monitor or CD-ROM drive, when they are not in use.

ACPI should help eliminate computer lockup on entering power saving or sleep mode. This will allow for improved power management, especially in portable computer systems where reducing power consumption is critical for extending battery life. ACPI also allows for the computer to be turned on and off by external devices, so that the touch of a mouse or the press of a key will "wake up" the computer. This new feature of ACPI, called OnNow, allows a computer to enter a sleep mode that uses very little power.

In addition to providing power management, ACPI also evolves the existing Plug and Play BIOS (PnP BIOS) to make adding and configuring new hardware devices easier. This includes support for legacy non-PnP devices and improved support for combining older devices with ACPI hardware, allowing both to work in a more efficient manner in the same computer system. The end result of this is to make the BIOS more PnP compatible.

What is CMOS?

CMOS, short for Complementary Metal Oxide Semiconductor, is a low-power, low-heat semiconductor technology used in contemporary microchips, especially useful for battery-powered devices. The specific technology is explained in detail at:

http://searchsmb.techtarget.com/sDefinition/0,,sid44_gci213860,00.html

Most commonly, though, the term CMOS is used to refer to small battery-powered configuration chips on system boards of personal computers, where the BIOS stores the date, the time, and system configuration details.

How do I enter the Setup program in my BIOS?

Warning: Your BIOS Setup program is very powerful. An incorrect setting could cause your computer not to boot properly. You should make sure you understand what a setting does before you change it.

You can usually run Setup by pressing a special function key or key combination soon after turning on the computer, during its power-on self test (POST), before the operating system loads (or before the operating system's splash screen shows). During POST, the BIOS usually displays a prompt such as:

Press F2 to enter Setup

Many newer computers display a brief screen, usually black and white, with the computer manufacturer's logo during POST.

Entering the designated keystroke will take you into the BIOS Setup. Common keystrokes to enter the BIOS Setup are F1, F2, F10, and Del.

On some computers, such as some Gateway or Compaq computers, graphics appear during the POST, and the BIOS information is hidden. You must press Esc to make these graphics disappear. Your monitor will then display the correct keystroke to enter.

Note: If you press the key too early or too often, the BIOS may display an error message. To avoid this, wait about five seconds after turning the power on, and then press the key once or twice.

What's the difference between BIOS and CMOS?

Many people use the terms BIOS (basic input/output system) and CMOS (complementary metal oxide semiconductor) to refer to the same thing. Though they are related, they are distinct and separate components of a computer. The BIOS is the program that starts a computer up, and the CMOS is where the BIOS stores the date, time, and system configuration details it needs to start the computer.

The BIOS is a small program that controls the computer from the time it powers on until the time the operating system takes over. The BIOS is firmware, which means it cannot store variable data.

CMOS is a type of memory technology, but most people use the term to refer to the chip that stores variable data for startup. A computer's BIOS will initialize and control components like the floppy and hard drive controllers and the computer's hardware clock, but the specific parameters for startup and initializing components are stored in the CMOS.

machining

обработка, механическая обработка, механообработка, обработка резанием, обработка на металлорежущем станке

machining all surfaces at a set — обработка всех поверхностей ( заготовки) с одного установа

machining for stock — обработка деталей складского резерва

machining from solid — обработка ( детали) из целого, обработка ( детали) из целого куска

machining from the solid — обработка ( детали) из целого, обработка ( детали) из целого куска

in machining — в обработке, при обработке

machining on all faces — обработка всех поверхностей ( заготовки)

machining through all angles — обработка под любым углом, обработка изделий под любым углом

machining to close limits — обработка с жёсткими допусками; точная обработка

- 2 1/2 D machining

- 2 1/2-dimensional machining
- 3D cavity machining
- 3D machining
- abrasive belt machining
- abrasive flow machining
- abrasive machining
- abrasive-electrochemical machining
- abrasive-waterjet machining
- adaptive controlled machining
- adaptive machining
- all-over machining
- angular machining
- anode-mechanical machining
- around-the-part machining
- associative machining
- automated machining
- automotive machining
- back end machining
- back-face machining
- balanced machining
- batch machining
- batch-lot machining
- beam machining
- bore machining
- CAM machining
- C-axis machining
- center machining
- chemical machining
- chip-type machining
- close tolerance machining
- closed loop machining
- CNC horizontal machining
- CNC machining
- CNC screw machining
- composite machining
- computer-controlled machining
- consistent machining
- constant power machining
- contact-initiated discharge machining
- contact-initiated machining
- continuous path machining
- contour machining
- contouring machining
- controlled machining
- conventional machining
- copy machining
- datum machining
- deephole machining
- diamond machining
- dual-spindle machining
- duplex machining
- duplicate machining
- edge machining
- electrical discharge machining
- electrical machining
- electrical spark machining
- electrochemical machining
- electroerosion abrasive machining
- electroerosion machining
- electrolytic abrasive machining
- electrolytic machining
- electron beam machining
- electron discharge machining
- electronic erosion machining
- electrophysical machining
- electrospark machining
- etch machining
- false machining
- fast laser machining
- feature-based machining
- final machining
- final tolerance machining
- finish machining
- finished machining
- five-axis CNC machining
- five-axis machining
- five-face machining
- five-sided machining
- fixed-axis machining
- flat abrasive machining
- flexible machining
- flow-line machining
- flowthru machining
- flush fine machining
- form-feature machining
- front-end machining
- gear machining
- generative machining
- group machining
- hard-part machining
- heavy machining
- heavy-duty machining
- high-accuracy machining
- high-definition finish machining
- high-efficiency machining
- high-production machining
- high-speed machining
- high-volume machining
- horizontal machining
- horizontal mode machining
- hot machining
- hydrodynamic machining
- inclined-plane machining
- in-cycle machining
- industrial laser machining
- in-place machining
- interference-free machining
- intol/outtol machining
- ion beam machining
- jet-assisted machining
- job shop machining
- laser machining
- laser-assisted machining
- laser-beam machining
- lathe machining
- LH machining
- light-duty machining
- lights-out machining
- magnetic abrasive machining
- manual machining
- medium-duty machining
- minimum-manned machining
- mirror image machining
- multiaccess machining
- multiaxis machining
- multicell machining
- multiface machining
- multilateral machining
- multimachine machining
- multiple machining
- multiple setup machining
- multiple surface flow-line machining
- multiple-axis machining
- multiple-cutter machining
- multiple-electrode electrical discharge machining
- multiple-pass machining
- multiple-source laser machining
- multiple-workpiece machining
- multiplunge machining
- multipurpose machining
- multistage machining
- NC machining
- NF machining
- no-handwork machining
- nonturning machining
- numerical control machining
- numerically controlled machining
- off-center machining
- one-hit machining
- one-operation machining
- one-pass machining
- one-stop machining and grinding
- on-line machining
- parabolic machining
- parallel machining
- partially manned machining
- photochemical machining
- photon beam machining
- photonic machining
- pick feed traverse machining
- plasma-arc machining
- plasma-assisted machining
- plunge machining
- point-to-point machining
- post-process machining
- precision machining
- primary machining
- prismatic machining
- radial machining
- random flexible machining
- rapid machining
- rear-end machining
- RH machining
- rotary machining
- rotary transfer machining
- rotational machining
- rough machining
- roughing machining
- screw machining
- sculpture machining
- sculptured-surface machining
- secondary machining
- semifinish machining
- semi-fourth axis machining
- semiunmanned machining
- series machining
- side machining
- simultaneous fourth-axis machining
- single setup machining
- single-cutter machining
- single-pass machining
- single-point machining
- six-face machining
- six-sided machining
- slideway machining
- solids-based machining
- spark discharge machining
- spark erosion machining
- standalone machining
- straight production machining
- strip machining
- surface intersection machining
- Swiss machining
- Swiss-style machining
- tandem machining
- tapeless machining
- tapered machining
- templet-controlled machining
- test machining
- thermochemical machining
- three-axis curve machining
- three-axis machining
- three-dimensional machining
- tombstone machining
- toolroom machining
- torque-controlled machining
- total machining
- tracer machining
- transfer machining
- transfer-line machining
- trial machining
- turned part machining
- turning machining
- two-and-half axis machining
- two-at-a-time machining
- two-pass machining
- ultrafast machining
- ultrahigh speed machining
- ultrasonic abrasive machining
- ultrasonic machining
- ultrasonically assisted machining
- unattended machining
- unattended multiple-workpiece machining
- unmanned machining overnight
- unmanned machining
- unstable machining
- untended machining
- vertical machining
- vertical mode machining
- vibroabrasive machining
- waterjet machining
- waterjet-assisted machining
- wire electric discharge machining
- wire erosion machining
- wire machining