摘要:
One embodiment of the present invention is a microcontroller (24) including an embedded memory (42), waveform control circuitry (44) operatively coupled to the memory (42), several terminals (52), and a programmable processor (30). Processor (30) is responsive to execution of the first sequence of instructions to store a waveform bit pattern in memory (42) with a desired transmission timing. Waveform circuitry (44) is responsive to processor (30) to control transmission of the waveform bit pattern stored in memory (42) through one or more of the terminals (52) in accordance with the timing while processor (30) executes the second sequence of instructions to perform a different process.
摘要:
All Pointer-based accesses require first that the value contained in a pointer register (200a, 200b, 200c, 200d) to be read and then that value be used as an address to the appropriate region in random access memory (RAM) (104). As implemented today, this requires two memory read access cycles, each of which takes at least one clock cycle and therefore this implementation does not allow single cycle operation. In accordance with an embodiment of the invention, when an access is performed to pointer memory (103a, 103b, 103c, 103d) to read the contents of a pointer, it is the shadow memory that is actually read and that returns the pointer value. Since the shadow memory is made up of pointer registers (200a, 200b, 200c, 200d), a read access involves mutliplexing out of appropriate data for the pointer address from these pointer registers (200a, 200b, 200c, 200d) to form a target pointer address. This target pointer address is then used as an address to access RAM (104) without the overhead of a clock, since the register access is purely combinatorial and does not require clock-phase related timing as does access to the RAM (104).
摘要:
Typically, for processing systems it must be guaranteed that all interrupted program stream parameters are restored before the execution of the first program stream resumes. If during this transfer an interrupt occurs, then all data may not be stored or restored. If the error free storage of the program register contents and other critical first program stream data does not occur, the processor (180) has no way of knowing whether the first program stream data restored to the registers has become corrupt or not. Thus, a novel register architecture (120, 121, 122, 123, 124, 125) is provided that facilitate processing of interrupting program streams without storing and restoring interrupted program stream critical data.
摘要:
One embodiment of the present invention is a microcontroller (24) including an embedded memory (42), waveform control circuitry (44) operatively coupled to the memory (42), several terminals (52), and a programmable processor (30). Processor (30) is responsive to execution of the first sequence of instructions to store a waveform bit pattern in memory (42) with a desired transmission timing. Waveform circuitry (44) is responsive to processor (30) to control transmission of the waveform bit pattern stored in memory (42) through one or more of the terminals (52) in accordance with the timing while processor (30) executes the second sequence of instructions to perform a different process.
摘要:
One embodiment of the present application includes a microcontroller (30) that has an embedded memory (46), a programmable processor (32), and a test interface (34). The memory (46) is accessible through the test interface (34). In response to resetting this microcontroller (30), a counter is started and the test interface (34) is initially set to a disabled state while an initiation program is executed. The test interface (34) is changed to an enabled state—such that access to the embedded memory (46) is permitted through it—when the counter reaches a predefined value unless the microcontroller (30) executes programming code before the predefined value is reached to provide the disabled state during subsequent microcontroller (30) operation.
摘要:
A memory accelerator module buffers program instructions and/or data for high speed access using a deterministic access protocol. The program memory is logically partitioned into ‘stripes’, or ‘cyclically sequential’ partitions, and the memory accelerator module includes a latch that is associated with each partition. When a particular partition is accessed, it is loaded into its corresponding latch, and the instructions in the next sequential partition are automatically pre-fetched into their corresponding latch. In this manner, the performance of a sequential-access process will have a known response, because the pre-fetched instructions from the next partition will be in the latch when the program sequences to these instructions. Previously accessed blocks remain in their corresponding latches until the pre-fetch process ‘cycles around’ and overwrites the contents of each sequentially-accessed latch. In this manner, the performance of a loop process, with regard to memory access, will be determined based solely on the size of the loop. If the loop is below a given size, it will be executable without overwriting existing latches, and therefore will not incur memory access delays as it repeatedly executes instructions contained within the latches. If the loop is above a given size, it will overwrite existing latches containing portions of the loop, and therefore require subsequent re-loadings of the latch with each loop. Because the pre-fetch is automatic, and determined solely on the currently accessed instruction, the complexity and overhead associated with this memory acceleration is minimal.
摘要:
A programmable processing device having a non-volatile memory that may comprise a first memory portion and a second memory portion, where the first section of the first memory portion is configured to store program instructions or data and the second memory portion of the memory word is configured to store either the configuration data or the error detection bits depending upon if an error detection scheme is implemented for the program instructions or data.
摘要:
A microcontroller (30) includes a processor (32), an embedded memory (46) operatively coupled to the processor (32), and a microcontroller test interface (34) operatively connected to the processor (32) and the memory (36). The microcontroller (30) responds to a reset signal to perform a reset initiation that causes an initial disabled state of the test interface (34) to be set and execution of initiation code with the processor (32). This code execution optionally establishes a further disabled state. The microcontroller (30) provides an enabled state of the test interface for memory (46) access through the test interlace (34) during microcontroller (30) operation subsequent to the reset initiation unless the further disabled memory (46) access state is established by execution of the initiation code.
摘要:
Aspects of the disclosure are directed to a system having a particularly-configured microcontroller. In one embodiment, the microcontroller includes the following: a processor; a processor data bus connected to the processor; a set of peripherals; a peripheral data bus connected to the peripherals; a peripheral bus bridge providing an interface between the processor data bus and the peripheral data base and including a plurality of special function register bank blocks that are internal to the microcontroller, each register bank block having a respective output; and a register bank block decoder circuit for decoding interrupts to provide a selection output for activation of one of the plurality of register bank blocks.
摘要:
One embodiment of the present application includes a microcontroller (30) that has an embedded memory (46), a programmable processor (32), and a test interface (34). The memory (46) is accessible through the test interface (34). In response to resetting this microcontroller (30), a counter is started and the test interface (34) is initially set to a disabled state while an initiation program is executed. The test interface (34) is changed to an enabled state—such that access to the embedded memory (46) is permitted through it—when the counter reaches a predefined value unless the microcontroller (30) executes programming code before the predefined value is reached to provide the disabled state during subsequent microcontroller (30) operation.