IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0973888
(2001-10-11)
|
우선권정보 |
JP-0311580 (2000-10-12) |
§371/§102 date |
20011016
(20011016)
|
발명자
/ 주소 |
- Okabayashi, Kazuhiro
- Okamoto, Minoru
- Marui, Shinichi
|
출원인 / 주소 |
- Matsushita Electric Industrial Co., Ltd.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
6 |
초록
▼
A first processor, a second processor, a memory and a clock supply unit are integrated together on a single chip. The first processor operates synchronously with a first internal clock signal. The second processor operates synchronously with a second internal clock signal. The memory operates synchr
A first processor, a second processor, a memory and a clock supply unit are integrated together on a single chip. The first processor operates synchronously with a first internal clock signal. The second processor operates synchronously with a second internal clock signal. The memory operates synchronously with a third internal clock signal. The clock supply unit generates three clock signals, which are in phase with each other, from an external clock signal and supplies those clock signals as the first, second and third internal clock signals. The first and second processors share the memory via a data bus. Each of the processors has an internal reset signal.
대표청구항
▼
1. An integrated circuit having a multiprocessor architecture, the circuit comprising:a first processor, which operates synchronously with a first internal clock signal; a second processor, which operates synchronously with a second internal clock signal; a memory, which operates synchronously with
1. An integrated circuit having a multiprocessor architecture, the circuit comprising:a first processor, which operates synchronously with a first internal clock signal; a second processor, which operates synchronously with a second internal clock signal; a memory, which operates synchronously with a third internal clock signal; and a clock supply unit, which respectively adjusts the delays of three clock signal generated from an external clock signal and respectively supplies the three clock signals as the first, the second and the third internal clock signals, such that the first, the second and the third internal clock signals are in phase with each other; wherein the first processor, the second processor, the memory, and the clock supply unit are integrated together on a single chip, wherein the clock supply unit further, receives a first terminating signal and a second terminating signal; stops supplying all of the first, second and third internal clock signals when the first and second terminating signals are asserted at the same time; stops supplying only the first internal clock signal when the first terminating signal is solely asserted; and stops supplying only the second internal clock signal when the second terminating signal is solely asserted. 2. An integrated circuit having a multiprocessor architecture, the circuit comprising:a first processor, which operates synchronously with a first internal clock signal; a second processor, which operates synchronously with a second internal clock signal; a memory, which operates synchronously with a third internal clock signal; and a clock supply unit, which respectively adjusts the delays of three clock signals generated from an external clock signal and respectively supplies the three clock signals as the first, the second and the third internal clock signals, such that the first, the second and the third internal clock signals are in phase with each other; wherein the first processor, the second processor, the memory, and the clock supply unit are integrated together on a single chip, wherein the integrated circuit further comprises a reset control unit that is integrated on the chip, the reset control unit supplying a first internal reset signal, a second internal reset signal and a third internal reset signal, the first internal reset signal being used for resetting the memory, the second internal reset signal being used for resetting the first processor, the third internal reset signal being used for resetting the second processor, wherein the reset control unit, receives a first external reset signal, a second external reset signal, and a third external reset signal; asserts all of the first, second and third internal reset signals when the first external reset signal is asserted; asserts only the second internal reset signal when the second external reset signal is asserted; and asserts only the third internal reset signal when the third external reset signal is asserted, wherein the clock supply unit further, receives a first terminating signal and a second terminating signal; stops supplying all of the first, second and third internal clock signals when the first and second terminating signals are asserted at the same time; stops supplying only the first internal clock signal when the first terminating signal is solely asserted; and stops supplying only the second internal clock signal when the second terminating signal is solely asserted. 3. An integrated circuit having a multiprocessor architecture, the circuit comprising:a first processor, which operates synchronously with a first internal clock signal; a second processor, which operates synchronously with a second internal clock signal; a memory, which operates synchronously with a third internal clock signal; and a clock supply unit, which respectively supplies three clock signals generated from an external clock signal as the first, the second and the third internal clock signals, wherein the first processor, the second processor, the memory, and the clock supply unit are integrated together on a single chip, and the clock supply unit, receives a first terminating signal and a second terminating signal; stops supplying all of the first, second and third internal clock signals when the first and second terminating signals are asserted at the same time; stops supplying only the first internal clock signal of the first, second and third internal clock signals when only the first terminating signal of the first and second terminating signals is asserted; and stops supplying only the second internal clock signal of the first, second and third internal clock signals when only the second terminating signal of the first and second terminating signals is asserted.
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