Operations include monitoring a logical level of a first pin of the plurality of pins while a data burst is active, wherein the first pin is associated with at least one of a read enable signal or a data strobe signal, determining whether a period of time during which the logical level of the first pin is held at a first logical level satisfies a threshold condition, in response to determining that the period of time satisfies the threshold condition, continuing to monitor the logical level of the first pin, determining whether the logical level of the first pin changed from the first logical level to a second logical level, and in response to determining that the logical level of the first pin changed from the first logical to the second logical level, causing warmup cycles to be performed.

Operations include monitoring a logical level of a first pin of the plurality of pins while a data burst is active, wherein the first pin is associated with at least one of a read enable signal or a data strobe signal, determining whether a period of time during which the logical level of the first pin is held at a first logical level satisfies a threshold condition, in response to determining that the period of time satisfies the threshold condition, continuing to monitor the logical level of the first pin, determining whether the logical level of the first pin changed from the first logical level to a second logical level, and in response to determining that the logical level of the first pin changed from the first logical to the second logical level, causing warmup cycles to be performed.

A direct memory access (DMA) circuit is provided. The DMA circuit may include a plurality of groups of direct memory access channels, wherein each of the groups includes at least one DMA channel and a resource usage counter configured to count an execution time in which one of the DMA channels of the group is executed, and an arbiter configured to evaluate a value of the resource usage counter of a group upon a request for execution time by one of the DMA channels of the group, and, taking into account a result of the evaluation, to assign, delay assignment, or deny execution time for using the direct memory access to one of the groups.

Relevant FIG. 2

A direct memory access (DMA) circuit is provided. The DMA circuit may include a plurality of groups of direct memory access channels, wherein each of the groups includes at least one DMA channel and a resource usage counter configured to count an execution time in which one of the DMA channels of the group is executed, and an arbiter configured to evaluate a value of the resource usage counter of a group upon a request for execution time by one of the DMA channels of the group, and, taking into account a result of the evaluation, to assign, delay assignment, or deny execution time for using the direct memory access to one of the groups.

Relevant FIG. 2

In view of defects in the prior art, the present disclosure provides a controller in a high-speed serial peripheral interface (SPI) master mode, where clock signals are provided by a phase locked loop (PLL), and the entire controller includes: a low-speed clock domain and a high-speed clock domain, where the PLL provides two main clock signals by different clock frequency dividers, provides a low-speed clock signal to the low-speed clock domain, and provides a high-speed source clock signal to the high-speed clock domain. By such technical solutions in the present disclosure, functions of different clock domains are divided through asynchronization of a high-speed SPI controller, and the function of a high-speed SPI flash access is implemented, thereby saving a read/write time. Especially in an application scenario of an SPI flash boot, the controller can greatly optimize a startup time.

In view of defects in the prior art, the present disclosure provides a controller in a high-speed serial peripheral interface (SPI) master mode, where clock signals are provided by a phase locked loop (PLL), and the entire controller includes: a low-speed clock domain and a high-speed clock domain, where the PLL provides two main clock signals by different clock frequency dividers, provides a low-speed clock signal to the low-speed clock domain, and provides a high-speed source clock signal to the high-speed clock domain. By such technical solutions in the present disclosure, functions of different clock domains are divided through asynchronization of a high-speed SPI controller, and the function of a high-speed SPI flash access is implemented, thereby saving a read/write time. Especially in an application scenario of an SPI flash boot, the controller can greatly optimize a startup time.

A storage controller includes a command manager and a direct memory access (DMA) engine. The command manager receives a first submission queue doorbell from an external device, fetches a first command including a first latency from the external device in response to the first submission queue doorbell, and determines a first timing to write a first completion into the external device based on the first latency, the first completion indicating that the first command is completely processed. The DMA engine receives a request signal requesting processing of the first command from the command manager, transfer data, which the first command requests, based on a DMA transfer in response to the request signal, and outputs a complete signal, which indicates that the first command is completely processed, to the command manager.

A system component, including an interface for a data bus, a defined communication protocol being used on the data bus which determines the data sequence of access requests for sending and receiving data. The data of an access request includes pieces of information about the access direction. The system component includes a register unit including data registers. The system component includes a processing unit for the data of an access request. The interface is optionally operable in a first or a second operating mode. In the first operating mode, the data of an access request is supplied to the register unit to identify a register address, so that the corresponding read or write access takes place on the identified data register. In the second mode, the data of an access request is supplied to the processing unit and the corresponding read or write access is handled by the processing unit.

A system component, including an interface for a data bus, a defined communication protocol being used on the data bus which determines the data sequence of access requests for sending and receiving data. The data of an access request includes pieces of information about the access direction. The system component includes a register unit including data registers. The system component includes a processing unit for the data of an access request. The interface is optionally operable in a first or a second operating mode. In the first operating mode, the data of an access request is supplied to the register unit to identify a register address, so that the corresponding read or write access takes place on the identified data register. In the second mode, the data of an access request is supplied to the processing unit and the corresponding read or write access is handled by the processing unit.

In accordance with an embodiment, an integrated driver circuit includes: a first connection and a second connection configured to be connected to a control chip; at least one bus connection configured to be connected to a bus line; and a control circuit. The control circuit is configured to operate in a first mode or a second mode; to output a reception signal at the second connection in the second mode, where the reception signal represents a bus signal received at the bus connection; to assume a state of low power consumption in the first mode; to change from the first mode to the second mode when a first command is detected at the first connection or at the second connection; and to change from the second mode to the first mode when the bus signal does not indicate any data for a predefined period of time.