atmel,sam-smc

Description

Atmel Static Memory Controller (SMC).

The SMC allows to interface with static-memory mapped external devices such as
SRAM, PSRAM, PROM, EPROM, EEPROM, LCD Module, NOR Flash and NAND Flash.

The SMC is clocked through the Master Clock (MCK) which is controlled by the
Power Management Controller (PMC).

The SMC controller can have up to 4 children defining the connected external
memory devices. The reg property is set to the device's Chip Select.
Device Tree example taken from the sam4_xplained board:

&smc {
  status = "okay";
  pinctrl-0 = <&smc_default>;
  pinctrl-names = "default";

  is66wv51216dbll@0 {
    reg = <0>;

    atmel,smc-write-mode = "nwe";
    atmel,smc-read-mode = "nrd";
    atmel,smc-setup-timing = <1 1 1 1>;
    atmel,smc-pulse-timing = <6 6 6 6>;
    atmel,smc-cycle-timing = <7 7>;
  };
};

The above example configures a is66wv51216dbll-55 device. The device is a
low power static RAM which uses NWE and NRD signals connected to the WE
and OE inputs respectively. Assuming that MCK is 120MHz (cpu at full speed)
each MCK cycle will be equivalent to 8ns. Since the memory full cycle is
55ns, as per specification, it requires atmel,smc-cycle-timing of at least
7 pulses (56ns). The atmel,smc-cycle-timing is composed of three parts:
setup, pulse and hold. The setup is used to address the memory. The pulse
is the time used to read/write. The hold is used to release memory. For the
is66wv51216dbll-55 a minimum setup of 5ns (1 cycle) with at least 45ns
(6 cycles) for CPU read/write and no hold time is required.
Note: Since no hold parameter is available at SMC the atmel,smc-cycle-timing
should have additional cycles to accommodate for hold values.

  No Hold Time:
  cycle-timing (7) = setup (1) + pulse (6) + hold (0)

  With 3 Hold Times:
  cycle-timing (10) = setup (1) + pulse (6) + hold (3)

Finally, in order to make the memory available you will need to define new
memory device/s in DeviceTree:

sram1: sram@60000000 {
    compatible = "zephyr,memory-region", "mmio-sram";
    device_type = "memory";
    reg = <0x60000000 DT_SIZE_K(512)>;
    zephyr,memory-region = "SRAM1";
};

Properties

Top level properties

These property descriptions apply to “atmel,sam-smc” nodes themselves. This page also describes child node properties in the following sections.

Properties not inherited from the base binding file.

Name	Type	Details
`pinctrl-0`	`phandles`	Pin configuration/s for the first state. Content is specific to the selected pin controller driver implementation.
`pinctrl-1`	`phandles`	Pin configuration/s for the second state. See pinctrl-0.
`pinctrl-2`	`phandles`	Pin configuration/s for the third state. See pinctrl-0.
`pinctrl-3`	`phandles`	Pin configuration/s for the fourth state. See pinctrl-0.
`pinctrl-4`	`phandles`	Pin configuration/s for the fifth state. See pinctrl-0.
`pinctrl-names`	`string-array`	Names for the provided states. The number of names needs to match the number of states.

Properties inherited from the base binding file, which defines common properties that may be set on many nodes. Not all of these may apply to the “atmel,sam-smc” compatible.

Name	Type	Details
`wakeup-source`	`boolean`	Property to identify that a device can be used as wake up source. When this property is provided a specific flag is set into the device that tells the system that the device is capable of wake up the system. Wake up capable devices are disabled (interruptions will not wake up the system) by default but they can be enabled at runtime if necessary.
`zephyr,pm-device-runtime-auto`	`boolean`	Automatically configure the device for runtime power management after the init function runs.
`zephyr,disabling-power-states`	`phandles`	List of power states that will disable this device power.
`status`	`string`	indicates the operational status of a device Legal values: `'ok'`, `'okay'`, `'disabled'`, `'reserved'`, `'fail'`, `'fail-sss'` See Important properties for more information.
`compatible`	`string-array`	compatible strings This property is required. See Important properties for more information.
`reg`	`array`	register space This property is required. See Important properties for more information.
`reg-names`	`string-array`	name of each register space
`interrupts`	`array`	interrupts for device See Important properties for more information.
`interrupts-extended`	`compound`	extended interrupt specifier for device
`interrupt-names`	`string-array`	name of each interrupt
`interrupt-parent`	`phandle`	phandle to interrupt controller node
`label`	`string`	Human readable string describing the device (used as device_get_binding() argument) See Important properties for more information. This property is deprecated.
`clocks`	`phandle-array`	Clock gate information This property is required.
`clock-names`	`string-array`	name of each clock
`#address-cells`	`int`	number of address cells in reg property This property is required. Constant value: `1`
`#size-cells`	`int`	number of size cells in reg property This property is required.
`dmas`	`phandle-array`	DMA channels specifiers
`dma-names`	`string-array`	Provided names of DMA channel specifiers
`io-channels`	`phandle-array`	IO channels specifiers
`io-channel-names`	`string-array`	Provided names of IO channel specifiers
`mboxes`	`phandle-array`	mailbox / IPM channels specifiers
`mbox-names`	`string-array`	Provided names of mailbox / IPM channel specifiers
`power-domains`	`phandle-array`	Power domain specifiers
`power-domain-names`	`string-array`	Provided names of power domain specifiers
`#power-domain-cells`	`int`	Number of cells in power-domains property
`zephyr,deferred-init`	`boolean`	Do not initialize device automatically on boot. Device should be manually initialized using device_init().

Child node properties

Name	Type	Details
`reg`	`int`	The device's SMC Chip Select number. Valid range: 0 - 3 This property is required. See Important properties for more information.
`atmel,smc-write-mode`	`string`	Select which signal is used for the write operation, either the chip select (ncs) or a dedicated write enable pin (nwe). The data is put on the bus during the pulse and hold steps of that signal. The internal data buffers are switched to output mode after the NCS_WR or NWE setup time. This property is required. Legal values: `'ncs'`, `'nwe'`
`atmel,smc-read-mode`	`string`	Select which signal is used for the read operation, either the chip select (ncs) or a dedicated output enable pin (nrd). The data is read from the bus during the pulse and hold steps of that signal. This property is required. Legal values: `'ncs'`, `'nrd'`
`atmel,smc-setup-timing`	`array`	This value is used to setup memory region (set address). The setup values is an array of the signals NWE, NCS_WR, NRD and NCS_RD where each value is configured in terms of MCK cycles. The SMC controller allows use of setups value of 0 (no delays) when consecutive reads/writes are used. Each value is encoded in 6 bits where the highest bit adds an offset of 128 cycles. The effective value for each element is: 128 x setup[5] + setup[4:0] This property is required.
`atmel,smc-pulse-timing`	`array`	This value is used to effectivelly read/write at memory region (pulse phase). The pulse value is an array of the signals NWE, NCS_WR, NRD and NCS_RD where each value is configured in terms of MCK cycles and a value of 0 is forbidden. Each value is encoded in 7 bits where the highest bit adds an offset of 256 cycles. The effective value for each element is: 256 x setup[6] + setup[5:0] This property is required.
`atmel,smc-cycle-timing`	`array`	SMC timing configurations in cycles for the total write and read length respectively. This value describes the entire write/read operation timing which is defined as: cycle = setup + pulse + hold Value has to be greater or equal to setup + pulse timing and is encoded in 9 bits where the two highest bits are multiplied with an offset of 256. Effective value for each element: 256 x cycle[8:7] + cycle[6:0] This property is required.