Techniques in electronic systems, such as in systems comprising a CPU die and one or more external mixed-mode (analog) chips, may provide improvements advantages in one or more of system design, performance, cost, efficiency and programmability. In one embodiment, the CPU die comprises at least one microcontroller CPU and circuitry enabling the at least one CPU to have a full and transparent connectivity to an analog chip as if they are designed as a single chip microcontroller, while the interface design between the two is extremely efficient and with limited in number of wires, yet may provide improved performance without impact to functionality or the software model.

A storage system includes a NAND storage media and a nonvolatile storage media as a write buffer for the NAND storage media. The write buffer is partitioned, where the partitions are to buffer write data based on a classification of a received write request. Write requests are placed in the write buffer partition with other write requests of the same classification. The partitions have a size at least equal to the size of an erase unit of the NAND storage media. The write buffer flushes a partition once it has an amount of write data equal to the size of the erase unit.

Techniques in electronic systems, such as in systems comprising a CPU die and one or more external mixed-mode (analog) chips, may provide improvements advantages in one or more of system design, performance, cost, efficiency and programmability. In one embodiment, the CPU die comprises at least one microcontroller CPU and circuitry enabling the at least one CPU to have a full and transparent connectivity to an analog chip as if they are designed as a single chip microcontroller, while the interface design between the two is extremely efficient and with limited in number of wires, yet may provide improved performance without impact to functionality or the software model.

Techniques in electronic systems, such as in systems comprising a CPU die and one or more external mixed-mode (analog) chips, may provide improvements advantages in one or more of system design, performance, cost, efficiency and programmability. In one embodiment, the CPU die comprises at least one microcontroller CPU and circuitry enabling the at least one CPU to have a full and transparent connectivity to an analog chip as if they are designed as a single chip microcontroller, while the interface design between the two is extremely efficient and with limited in number of wires, yet may provide improved performance without impact to functionality or the software model.

A system that includes a first die with a central processing unit (CPU) and a second die electrically coupled to the first die by die-to-die interconnects is described. During operation, the first die: provides, to the second die, a set of predefined wake-up events; provides, to the second die, a message that transitions power-management control of the first die to the second die; and transitions the first die from a first operating mode to a second operating mode that has lower power consumption than that of the first operating mode. Then, the second die: determines an occurrence of a predefined wake-up event based at least in part on the set of predefined wake-up events; and provides, to the first die, information that initiates a transition of the first die from the second operating mode to the first operating mode.

Techniques in electronic systems, such as in systems comprising a CPU die and one or more external mixed-mode (analog) chips, may provide improvements advantages in one or more of system design, performance, cost, efficiency and programmability. In one embodiment, the CPU die comprises at least one microcontroller CPU and circuitry enabling the at least one CPU to have a full and transparent connectivity to an analog chip as if they are designed as a single chip microcontroller, while the interface design between the two is extremely efficient and with limited in number of wires, yet may provide improved performance without impact to functionality or the software model.

Techniques in electronic systems, such as in systems comprising a CPU die and one or more external mixed-mode (analog) chips, may provide improvements advantages in one or more of system design, performance, cost, efficiency and programmability. In one embodiment, the CPU die comprises at least one microcontroller CPU and circuitry enabling the at least one CPU to have a full and transparent connectivity to an analog chip as if they are designed as a single chip microcontroller, while the interface design between the two is extremely efficient and with limited in number of wires, yet may provide improved performance without impact to functionality or the software model.

Bandwidth on a front-end port of a storage system may be managed. A plurality of logical storage units may be divided into a plurality of priority groups according to a predefined priority. For a first priority group of the plurality of priority groups having a highest priority, a first forecasted average amount of bandwidth of the first port to be consumed by the logical storage units of the first priority group during a first temporal interval may be determined. Based on the first forecasted average amount, a first reserve amount of bandwidth on the first port to be reserved for use by the logical storage units of the first priority group during the first temporal interval may be determined. The first reserve amount of bandwidth on the first port for use by the logical storage units of the first priority group during the first temporal interval may be reserved.

A system that includes a first die with a central processing unit (CPU) and a second die electrically coupled to the first die by die-to-die interconnects is described. During operation, the first die: provides, to the second die, a set of predefined wake-up events; provides, to the second die, a message that transitions power-management control of the first die to the second die; and transitions the first die from a first operating mode to a second operating mode that has lower power consumption than that of the first operating mode. Then, the second die: determines an occurrence of a predefined wake-up event based at least in part on the set of predefined wake-up events; and provides, to the first die, information that initiates a transition of the first die from the second operating mode to the first operating mode.

Techniques in electronic systems, such as in systems comprising a CPU die and one or more external mixed-mode (analog) chips, may provide improvements advantages in one or more of system design, performance, cost, efficiency and programmability. In one embodiment, the CPU die comprises at least one microcontroller CPU and circuitry enabling the at least one CPU to have a full and transparent connectivity to an analog chip as if they are designed as a single chip microcontroller, while the interface design between the two is extremely efficient and with limited in number of wires, yet may provide improved performance without impact to functionality or the software model.