VirtualBox

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doc/manual: Integrate a collection of documentation improvements: sensitive terminology, diversity statement, clear messaging on what is eligible for enterprise support, OCI integration docs, export to OCI and incorrect UI doc referring to host-only networking when that place allows configuring NAT Networks

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1<?xml version="1.0" encoding="UTF-8"?>
2<!DOCTYPE glossary PUBLIC "-//OASIS//DTD DocBook XML V4.5//EN"
3"http://www.oasis-open.org/docbook/xml/4.5/docbookx.dtd"[
4<!ENTITY % all.entities SYSTEM "all-entities.ent">
5%all.entities;
6]>
7<glossary id="Glossary">
8 <glossdiv>
9
10 <title>A</title>
11
12 <glossentry><glossterm>ACPI</glossterm>
13
14 <glossdef>
15
16 <para>
17 Advanced Configuration and Power Interface, an industry
18 specification for BIOS and hardware extensions to configure PC
19 hardware and perform power management. Windows 2000 and later,
20 as well as Linux 2.4 and later support ACPI. Windows can only
21 enable or disable ACPI support at installation time.
22 </para>
23
24 </glossdef>
25
26 </glossentry>
27
28 <glossentry><glossterm>AHCI</glossterm>
29
30 <glossdef>
31
32 <para>
33 Advanced Host Controller Interface, the interface that
34 supports SATA devices such as hard disks. See
35 <xref
36 linkend="harddiskcontrollers" />.
37 </para>
38
39 </glossdef>
40
41 </glossentry>
42
43 <glossentry><glossterm>AMD-V</glossterm>
44
45 <glossdef>
46
47 <para>
48 The hardware virtualization features built into modern AMD
49 processors. See <xref linkend="hwvirt" />.
50 </para>
51
52 </glossdef>
53
54 </glossentry>
55
56 <glossentry><glossterm>API</glossterm>
57
58 <glossdef>
59
60 <para>
61 Application Programming Interface.
62 </para>
63
64 </glossdef>
65
66 </glossentry>
67
68 <glossentry><glossterm>APIC</glossterm>
69
70 <glossdef>
71
72 <para>
73 Advanced Programmable Interrupt Controller, a newer version of
74 the original PC PIC (programmable interrupt controller). Most
75 modern CPUs contain an on-chip APIC, called a local APIC. Many
76 systems also contain an I/O APIC (input output APIC) as a
77 separate chip which provides more than 16 IRQs. Windows 2000
78 and later use a different kernel if they detect an I/O APIC
79 during installation. Therefore, an I/O APIC must not be
80 removed after installation.
81 </para>
82
83 </glossdef>
84
85 </glossentry>
86
87 <glossentry><glossterm>ATA</glossterm>
88
89 <glossdef>
90
91 <para>
92 Advanced Technology Attachment, an industry standard for hard
93 disk interfaces which is synonymous with IDE. See
94 <xref
95 linkend="harddiskcontrollers" />.
96 </para>
97
98 </glossdef>
99
100 </glossentry>
101
102 </glossdiv>
103
104 <glossdiv>
105
106 <title>B</title>
107
108 <glossentry><glossterm>BIOS</glossterm>
109
110 <glossdef>
111
112 <para>
113 Basic Input/Output System, the firmware built into most
114 personal computers which is responsible of initializing the
115 hardware after the computer has been turned on and then
116 booting an operating system. &product-name; ships with its own
117 virtual BIOS that runs when a virtual machine is started.
118 </para>
119
120 </glossdef>
121
122 </glossentry>
123
124 </glossdiv>
125
126 <glossdiv>
127
128 <title>C</title>
129
130 <glossentry><glossterm>COM</glossterm>
131
132 <glossdef>
133
134 <para>
135 Microsoft Component Object Model, a programming infrastructure
136 for modular software. COM enables applications to provide
137 application programming interfaces which can be accessed from
138 various other programming languages and applications.
139 &product-name; makes use of COM both internally and externally
140 to provide a comprehensive API to 3rd party developers.
141 </para>
142
143 </glossdef>
144
145 </glossentry>
146
147 </glossdiv>
148
149 <glossdiv>
150
151 <title>D</title>
152
153 <glossentry><glossterm>DHCP</glossterm>
154
155 <glossdef>
156
157 <para>
158 Dynamic Host Configuration Protocol. This enables a networking
159 device in a network to acquire its IP address and other
160 networking details automatically, in order to avoid having to
161 configure all devices in a network with fixed IP addresses.
162 &product-name; has a built-in DHCP server that delivers an IP
163 addresses to a virtual machine when networking is configured
164 to NAT. See <xref
165 linkend="networkingdetails" />.
166 </para>
167
168 </glossdef>
169
170 </glossentry>
171
172 </glossdiv>
173
174 <glossdiv>
175
176 <title>E</title>
177
178 <glossentry><glossterm>EFI</glossterm>
179
180 <glossdef>
181
182 <para>
183 Extensible Firmware Interface, a firmware built into computers
184 which is designed to replace the aging BIOS. Originally
185 designed by Intel, most modern operating systems can now boot
186 on computers which have EFI instead of a BIOS built into them.
187 See <xref
188 linkend="efi" />.
189 </para>
190
191 </glossdef>
192
193 </glossentry>
194
195 <glossentry><glossterm>EHCI</glossterm>
196
197 <glossdef>
198
199 <para>
200 Enhanced Host Controller Interface, the interface that
201 implements the USB 2.0 standard.
202 </para>
203
204 </glossdef>
205
206 </glossentry>
207
208 </glossdiv>
209
210 <glossdiv>
211
212 <title>G</title>
213
214 <glossentry><glossterm>GUI</glossterm>
215
216 <glossdef>
217
218 <para>
219 Graphical User Interface. Commonly used as an antonym to a
220 "command line interface". In the context of &product-name;, we
221 sometimes refer to the main graphical
222 <command>VirtualBox</command> program as the "GUI", to
223 differentiate it from the <command>VBoxManage</command>
224 interface.
225 </para>
226
227 </glossdef>
228
229 </glossentry>
230
231 <glossentry><glossterm>GUID</glossterm>
232
233 <glossdef>
234
235 <para>
236 See UUID.
237 </para>
238
239 </glossdef>
240
241 </glossentry>
242
243 </glossdiv>
244
245 <glossdiv>
246
247 <title>I</title>
248
249 <glossentry><glossterm>IDE</glossterm>
250
251 <glossdef>
252
253 <para>
254 Integrated Drive Electronics, an industry standard for hard
255 disk interfaces. See <xref linkend="harddiskcontrollers" />.
256 </para>
257
258 </glossdef>
259
260 </glossentry>
261
262 <glossentry><glossterm>I/O APIC</glossterm>
263
264 <glossdef>
265
266 <para>
267 See APIC.
268 </para>
269
270 </glossdef>
271
272 </glossentry>
273
274 <glossentry><glossterm>iSCSI</glossterm>
275
276 <glossdef>
277
278 <para>
279 Internet SCSI. See <xref linkend="storage-iscsi" />.
280 </para>
281
282 </glossdef>
283
284 </glossentry>
285
286 </glossdiv>
287
288 <glossdiv>
289
290 <title>M</title>
291
292 <glossentry><glossterm>MAC</glossterm>
293
294 <glossdef>
295
296 <para>
297 Media Access Control, a part of an Ethernet network card. A
298 MAC address is a 6-byte number which identifies a network
299 card. It is typically written in hexadecimal notation where
300 the bytes are separated by colons, such as
301 <literal>00:17:3A:5E:CB:08</literal>.
302 </para>
303
304 </glossdef>
305
306 </glossentry>
307
308 <glossentry><glossterm>MSI</glossterm>
309
310 <glossdef>
311
312 <para>
313 Message Signaled Interrupts, as supported by modern chipsets
314 such as the ICH9. See <xref linkend="settings-motherboard" />.
315 As opposed to traditional pin-based interrupts, with MSI, a
316 small amount of data can accompany the actual interrupt
317 message. This reduces the amount of hardware pins required and
318 allows for more interrupts and better performance.
319 </para>
320
321 </glossdef>
322
323 </glossentry>
324
325 </glossdiv>
326
327 <glossdiv>
328
329 <title>N</title>
330
331 <glossentry><glossterm>NAT</glossterm>
332
333 <glossdef>
334
335 <para>
336 Network Address Translation. A technique to share networking
337 interfaces by which an interface modifies the source and/or
338 target IP addresses of network packets according to specific
339 rules. Commonly employed by routers and firewalls to shield an
340 internal network from the Internet, &product-name; can use NAT
341 to easily share a host's physical networking hardware with its
342 virtual machines. See <xref
343 linkend="network_nat" />.
344 </para>
345
346 </glossdef>
347
348 </glossentry>
349
350 </glossdiv>
351
352 <glossdiv>
353
354 <title>O</title>
355
356 <glossentry><glossterm>OVF</glossterm>
357
358 <glossdef>
359
360 <para>
361 Open Virtualization Format, a cross-platform industry standard
362 to exchange virtual appliances between virtualization
363 products. See <xref linkend="ovf" />.
364 </para>
365
366 </glossdef>
367
368 </glossentry>
369
370 </glossdiv>
371
372 <glossdiv>
373
374 <title>P</title>
375
376 <glossentry><glossterm>PAE</glossterm>
377
378 <glossdef>
379
380 <para>
381 Physical Address Extension. This enables access to more than 4
382 GB of RAM, even in 32-bit environments. See
383 <xref linkend="settings-general-advanced" />.
384 </para>
385
386 </glossdef>
387
388 </glossentry>
389
390 <glossentry><glossterm>PIC</glossterm>
391
392 <glossdef>
393
394 <para>
395 See APIC.
396 </para>
397
398 </glossdef>
399
400 </glossentry>
401
402 <glossentry><glossterm>PXE</glossterm>
403
404 <glossdef>
405
406 <para>
407 Preboot Execution Environment, an industry standard for
408 booting PC systems from remote network locations. It includes
409 DHCP for IP configuration and TFTP for file transfer. Using
410 UNDI, a hardware independent driver stack for accessing the
411 network card from bootstrap code is available.
412 </para>
413
414 </glossdef>
415
416 </glossentry>
417
418 </glossdiv>
419
420 <glossdiv>
421
422 <title>R</title>
423
424 <glossentry><glossterm>RDP</glossterm>
425
426 <glossdef>
427
428 <para>
429 Remote Desktop Protocol, a protocol developed by Microsoft as
430 an extension to the ITU T.128 and T.124 video conferencing
431 protocol. With RDP, a PC system can be controlled from a
432 remote location using a network connection over which data is
433 transferred in both directions. Typically graphics updates and
434 audio are sent from the remote machine and keyboard and mouse
435 input events are sent from the client. An &product-name;
436 extension package by Oracle provides VRDP, an enhanced
437 implementation of the relevant standards which is largely
438 compatible with Microsoft's RDP implementation. See
439 <xref linkend="vrde" /> for details.
440 </para>
441
442 </glossdef>
443
444 </glossentry>
445
446 </glossdiv>
447
448 <glossdiv>
449
450 <title>S</title>
451
452 <glossentry><glossterm>SAS</glossterm>
453
454 <glossdef>
455
456 <para>
457 Serial Attached SCSI, an industry standard for hard disk
458 interfaces. See <xref linkend="harddiskcontrollers" />.
459 </para>
460
461 </glossdef>
462
463 </glossentry>
464
465 <glossentry><glossterm>SATA</glossterm>
466
467 <glossdef>
468
469 <para>
470 Serial ATA, an industry standard for hard disk interfaces. See
471 <xref linkend="harddiskcontrollers" />.
472 </para>
473
474 </glossdef>
475
476 </glossentry>
477
478 <glossentry><glossterm>SCSI</glossterm>
479
480 <glossdef>
481
482 <para>
483 Small Computer System Interface. An industry standard for data
484 transfer between devices, especially for storage. See
485 <xref
486 linkend="harddiskcontrollers" />.
487 </para>
488
489 </glossdef>
490
491 </glossentry>
492
493 <glossentry><glossterm>SMP</glossterm>
494
495 <glossdef>
496
497 <para>
498 Symmetrical Multiprocessing, meaning that the resources of a
499 computer are shared between several processors. These can
500 either be several processor chips or, as is more common with
501 modern hardware, multiple CPU cores in one processor.
502 </para>
503
504 </glossdef>
505
506 </glossentry>
507
508 <glossentry><glossterm>SSD</glossterm>
509
510 <glossdef>
511
512 <para>
513 Solid-state drive, uses microchips for storing data in a
514 computer system. Compared to classical hard-disks they are
515 having no mechanical components like spinning disks.
516 </para>
517
518 </glossdef>
519
520 </glossentry>
521
522 </glossdiv>
523
524 <glossdiv>
525
526 <title>T</title>
527
528 <glossentry><glossterm>TAR</glossterm>
529
530 <glossdef>
531
532 <para>
533 A widely used file format for archiving. Originally, this
534 stood for Tape ARchive and was already supported by very early
535 UNIX versions for backing up data on tape. The file format is
536 still widely used today. For example, with OVF archives using
537 an <filename>.ova</filename> file extension. See
538 <xref
539 linkend="ovf" />.
540 </para>
541
542 </glossdef>
543
544 </glossentry>
545
546 </glossdiv>
547
548 <glossdiv>
549
550 <title>U</title>
551
552 <glossentry><glossterm>UUID</glossterm>
553
554 <glossdef>
555
556 <para>
557 A Universally Unique Identifier, often also called GUID
558 (Globally Unique Identifier). A UUID is a string of numbers
559 and letters which can be computed dynamically and is
560 guaranteed to be unique. Generally, it is used as a global
561 handle to identify entities. &product-name; makes use of UUIDs
562 to identify VMs, Virtual Disk Images (VDI files), and other
563 entities.
564 </para>
565
566 </glossdef>
567
568 </glossentry>
569
570 </glossdiv>
571
572 <glossdiv>
573
574 <title>V</title>
575
576 <glossentry><glossterm>VM</glossterm>
577
578 <glossdef>
579
580 <para>
581 Virtual Machine. A virtual computer that &product-name;
582 enables you to run on top of your actual hardware. See
583 <xref
584 linkend="virtintro" /> for details.
585 </para>
586
587 </glossdef>
588
589 </glossentry>
590
591 <glossentry><glossterm>VMM</glossterm>
592
593 <glossdef>
594
595 <para>
596 Virtual Machine Manager. The component of &product-name; that
597 controls VM execution. See
598 <xref linkend="technical-components" /> for a list of
599 &product-name; components.
600 </para>
601
602 </glossdef>
603
604 </glossentry>
605
606 <glossentry><glossterm>VRDE</glossterm>
607
608 <glossdef>
609
610 <para>
611 VirtualBox Remote Desktop Extension. This interface is built
612 into &product-name; to allow &product-name; extension packages
613 to supply remote access to virtual machines. An &product-name;
614 extension package by Oracle provides VRDP support. See
615 <xref linkend="vrde" />.
616 </para>
617
618 </glossdef>
619
620 </glossentry>
621
622 <glossentry><glossterm>VRDP</glossterm>
623
624 <glossdef>
625
626 <para>
627 See RDP.
628 </para>
629
630 </glossdef>
631
632 </glossentry>
633
634 <glossentry><glossterm>VT-x</glossterm>
635
636 <glossdef>
637
638 <para>
639 The hardware virtualization features built into modern Intel
640 processors. See <xref linkend="hwvirt" />.
641 </para>
642
643 </glossdef>
644
645 </glossentry>
646
647 </glossdiv>
648
649 <glossdiv>
650
651 <title>X</title>
652
653 <glossentry><glossterm>xHCI</glossterm>
654
655 <glossdef>
656
657 <para>
658 eXtended Host Controller Interface, the interface that
659 implements the USB 3.0 standard.
660 </para>
661
662 </glossdef>
663
664 </glossentry>
665
666 <glossentry><glossterm>XML</glossterm>
667
668 <glossdef>
669
670 <para>
671 The eXtensible Markup Language, a metastandard for all kinds
672 of textual information. XML only specifies how data in the
673 document is organized generally and does not prescribe how to
674 semantically organize content.
675 </para>
676
677 </glossdef>
678
679 </glossentry>
680
681 <glossentry><glossterm>XPCOM</glossterm>
682
683 <glossdef>
684
685 <para>
686 Mozilla Cross Platform Component Object Model, a programming
687 infrastructure developed by the Mozilla browser project which
688 is similar to Microsoft COM and enables applications to
689 provide a modular programming interface. &product-name; makes
690 use of XPCOM on Linux both internally and externally to
691 provide a comprehensive API to third-party developers.
692 </para>
693
694 </glossdef>
695
696 </glossentry>
697
698 </glossdiv>
699
700</glossary>
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