5. W

   [2] Сказуемое [3] дополнение [4] обстоятельства

   as the first microprocessor designed by Intel in 1969?

Can the developments leading to the IA be traced back through the 8085 and 8080

microprocessors to the 4004 microprocessor?

Will the object code programs created for these processors starting in 1978 still execute on the latest members of the IA family ?

Does the 8086 have 16-bit registers and a 16-bit external data bus?

Did these processors introduce IA segmentation?

Is the first actual processor in the IA family the 8086?

(вопросы, начинающиеся со вспомогательного глагола, требуют ответа «да/нет»)

[1] вспомогательный	[2] полное	[3] остаток	[4] второстепенные
глагол	подлежащее	сказуемого	члены

Итак, изменился только порядок слов.

Вспомогательным глаголом является первый компонент многокомпанентного сказуемого. После подлежащего в вопросе остается сказуемое за его вычетом. В однокомпанентных сказуемых остатком является глагол, «лишившийся» суффикса. Иногда остаток нулевой. См. последнее предложение упражнения (если смысловой глагол = am, is, are, was, were).

Если сказуемое, то вспомогательный глагол

Английский язык 1

для пользователей ПК 1

и программистов 1

English 7

for 7

PC users 7

Приложения 356

н 379

м 383

т 390

w 391

8. 421

2. 425

6. 426

10. 438

а урок 13 457

2. 457

2. • 464

6. When was the first microprocessor designed by Intel? (Когда)

Where can the developments leading to the IA be traced back? (Куда)

What does the 8086 have? (Что)

[0] вопросительное	[1] вспомогательный	[2] полное	[3] остаток	[4] второстепенные
местоимение	глагол	подлежащее	сказуемого	члены

7. What processor introduced the Protected Mode into the ia?

What allows the operating system to protect application or user programs from each other? Who originally developed Linux as a hobby?

8. C

   [1] Подлежащее (who/what) [2] сказуемое [3] дополнение [4] обстоятельство

   OMPUTER is a device which has five basic components and performs high-speed operations. KEYBOARD is an arrangement of keys to enter information into a computer manually. DISPLAY is a visual representation of data on the screen of CRT.

PRINTER is an output device that converts electronic signals into hard copy.

MODEM is a device that converts digital data into analog data to transmit them over communication lines.

DISK DRIVE is a unit that reads or writes data stored on a disk.

PROGRAMMER is a specialist who solves problems by writing and testing programs. ROUTINE is a set of instructions to solve specified problems.

9. Предложения в повелительном наклонении под цифрой 1.

Сказуемые: 2 предложение — are marked, support. 3 предложение — is marked, supports. 4 предложение — are, have, is set. 5. предложение — are.

2. How are Intel-SLE 486 DX/DX2/DZ4/ODP (Over Driver Processor) marked?

3. What is marked with «&Е W ХХХХ» which supports write back mode internal cache and green function?

4. What are P24T -#? What does CPUs have on package? How is Maun board set?

5. What series are AMD”s latest “write-back” technology CPUs?

10. Некоторые ваши предложения могли бы выглядеть так. Прочтите текст, объясняю­щий таблицу:

The table shows the dramatic increases in performance and transistor count of the IA processors over their history. It summarizes the evolution of key features of the architecture.

Performance here is indicated by Dhrystone MIPs (Millions of Instructions per Second) because even though MIPs are no longer considered a preferred measure of CPU performance, they are the only benchmarks that span all six generations of the IA. The MIPs and frequency values given here correspond to the maximum CPU frequency available at product introduction.

Main CPU register size and external data bus size are given in bits. Note also that there are 8 and 16-bit data registers in all of the CPUs, there are eight 80-bit registers in the FPUs integrated into the Intel386™ chip and beyond, and there are internal data paths that are 2 to 4 times wider than the external data bus for each processor.

In addition to the large general-purpose caches listed in the table for the Intel486™ processor (8 Kbytes of combined code and data) and the Intel Pentium ® and Pentium ® Pro processors (8 KBytes each for separate code ca<?he and data cache), there are smaller special purpose caches. The Intel 286 has 6 byte descriptor caches for each segment register. The Intel386™ has 8 byte descriptor caches for each segment register, and also a 32-entry, 4-way set associative Translation Lookaside Buffer (cache) to store access information for recently used pages on the chip. The Intel486™ has the same caches described for the Intel386™, as well as its 8K LI general-purpose cache. The Intel Pentium ® and Pentium® Pro processors have their general- purpose caches, descriptor caches, and two Translation Lookaside Buffers each (one for each 8K LI cache). The Pentium ® II and Pentium ® III processors have the same cache structure as the Pentium ® Pro processor except that the size of each cache is 16K.