xref: /linux/Documentation/devicetree/bindings/memory-controllers/ti-aemif.txt (revision c532de5a67a70f8533d495f8f2aaa9a0491c3ad0)
1* Device tree bindings for Texas instruments AEMIF controller
2
3The Async External Memory Interface (EMIF16/AEMIF) controller is intended to
4provide a glue-less interface to a variety of asynchronous memory devices like
5ASRA M, NOR and NAND memory. A total of 256M bytes of any of these memories
6can be accessed at any given time via four chip selects with 64M byte access
7per chip select. Synchronous memories such as DDR1 SD RAM, SDR SDRAM
8and Mobile SDR are not supported.
9
10Documentation:
11Davinci DM646x - http://www.ti.com/lit/ug/sprueq7c/sprueq7c.pdf
12OMAP-L138 (DA850) - http://www.ti.com/lit/ug/spruh77a/spruh77a.pdf
13Kestone - http://www.ti.com/lit/ug/sprugz3a/sprugz3a.pdf
14
15Required properties:
16
17- compatible:		"ti,davinci-aemif"
18			"ti,keystone-aemif"
19			"ti,da850-aemif"
20
21- reg:			contains offset/length value for AEMIF control registers
22			space.
23
24- #address-cells:	Must be 2. The partition number has to be encoded in the
25			first address cell and it may accept values 0..N-1
26			(N - total number of partitions). It's recommended to
27			assign N-1 number for the control partition. The second
28			cell is the offset into the partition.
29
30- #size-cells:		Must be set to 1.
31
32- ranges:		Contains memory regions. There are two types of
33			ranges/partitions:
34			- CS-specific partition/range. If continuous, must be
35			set up to reflect the memory layout for 4 chipselects,
36			if not then additional range/partition can be added and
37			child device can select the proper one.
38			- control partition which is common for all CS
39			interfaces.
40
41- clocks:		the clock feeding the controller clock. Required only
42			if clock tree data present in device tree.
43			See clock-bindings.txt
44
45- clock-names:		clock name. It has to be "aemif". Required only if clock
46			tree data present in device tree, in another case don't
47			use it.
48			See clock-bindings.txt
49
50- clock-ranges:		Empty property indicating that child nodes can inherit
51			named clocks. Required only if clock tree data present
52			in device tree.
53			See clock-bindings.txt
54
55
56Child chip-select (cs) nodes contain the memory devices nodes connected to
57such as NOR (e.g. cfi-flash) and NAND (ti,davinci-nand, see davinci-nand.txt).
58There might be board specific devices like FPGAs.
59
60Required child cs node properties:
61
62- #address-cells:	Must be 2.
63
64- #size-cells:		Must be 1.
65
66- ranges:		Empty property indicating that child nodes can inherit
67			memory layout.
68
69- clock-ranges:		Empty property indicating that child nodes can inherit
70			named clocks. Required only if clock tree data present
71			in device tree.
72
73- ti,cs-chipselect:	number of chipselect. Indicates on the aemif driver
74			which chipselect is used for accessing the memory. For
75			compatibles "ti,davinci-aemif" and "ti,keystone-aemif"
76			it can be in range [0-3]. For compatible
77			"ti,da850-aemif" range is [2-5].
78
79Optional child cs node properties:
80
81- ti,cs-bus-width:		width of the asynchronous device's data bus
82				8 or 16 if not preset 8
83
84- ti,cs-select-strobe-mode:	enable/disable select strobe mode
85				In select strobe mode chip select behaves as
86				the strobe and is active only during the strobe
87				period. If present then enable.
88
89- ti,cs-extended-wait-mode:	enable/disable extended wait mode
90				if set, the controller monitors the EMIFWAIT pin
91				mapped to that chip select to determine if the
92				device wants to extend the strobe period. If
93				present then enable.
94
95- ti,cs-min-turnaround-ns:	minimum turn around time, ns
96				Time between the end of one asynchronous memory
97				access and the start of another asynchronous
98				memory access. This delay is not incurred
99				between a read followed by read or a write
100				followed by a write to same chip select.
101
102- ti,cs-read-setup-ns:		read setup width, ns
103				Time between the beginning of a memory cycle
104				and the activation of read strobe.
105				Minimum value is 1 (0 treated as 1).
106
107- ti,cs-read-strobe-ns:		read strobe width, ns
108				Time between the activation and deactivation of
109				the read strobe.
110				Minimum value is 1 (0 treated as 1).
111
112- ti,cs-read-hold-ns:		read hold width, ns
113				Time between the deactivation of the read
114				strobe and the end of the cycle (which may be
115				either an address change or the deactivation of
116				the chip select signal.
117				Minimum value is 1 (0 treated as 1).
118
119- ti,cs-write-setup-ns:		write setup width, ns
120				Time between the beginning of a memory cycle
121				and the activation of write strobe.
122				Minimum value is 1 (0 treated as 1).
123
124- ti,cs-write-strobe-ns:	write strobe width, ns
125				Time between the activation and deactivation of
126				the write strobe.
127				Minimum value is 1 (0 treated as 1).
128
129- ti,cs-write-hold-ns:		write hold width, ns
130				Time between the deactivation of the write
131				strobe and the end of the cycle (which may be
132				either an address change or the deactivation of
133				the chip select signal.
134				Minimum value is 1 (0 treated as 1).
135
136If any of the above parameters are absent, current parameter value will be taken
137from the corresponding HW reg.
138
139Example for aemif, davinci nand and nor flash chip select shown below.
140
141memory-controller@21000a00 {
142	compatible = "ti,davinci-aemif";
143	#address-cells = <2>;
144	#size-cells = <1>;
145	clocks = <&clkaemif 0>;
146	clock-names = "aemif";
147	clock-ranges;
148	reg = <0x21000A00 0x00000100>;
149	ranges = <0 0 0x70000000 0x10000000
150		  1 0 0x21000A00 0x00000100>;
151		  /*
152		   * Partition0: CS-specific memory range which is
153		   * implemented as continuous physical memory region
154		   * Partition1: control memory range
155		   */
156
157	nand:cs2 {
158		#address-cells = <2>;
159		#size-cells = <1>;
160		clock-ranges;
161		ranges;
162
163		ti,cs-chipselect = <2>;
164		/* all timings in nanoseconds */
165		ti,cs-min-turnaround-ns = <0>;
166		ti,cs-read-hold-ns = <7>;
167		ti,cs-read-strobe-ns = <42>;
168		ti,cs-read-setup-ns = <14>;
169		ti,cs-write-hold-ns = <7>;
170		ti,cs-write-strobe-ns = <42>;
171		ti,cs-write-setup-ns = <14>;
172
173		nand@0,0x8000000 {
174			compatible = "ti,davinci-nand";
175			reg = <0 0x8000000 0x4000000
176			       1 0x0000000 0x0000100>;
177			/*
178			 * Partition0, offset 0x8000000, size 0x4000000
179			 * Partition1, offset 0x0000000, size 0x0000100
180			 */
181
182			.. see davinci-nand.txt
183		};
184	};
185
186	nor:cs0 {
187		#address-cells = <2>;
188		#size-cells = <1>;
189		clock-ranges;
190		ranges;
191
192		ti,cs-chipselect = <0>;
193		/* all timings in nanoseconds */
194		ti,cs-min-turnaround-ns = <0>;
195		ti,cs-read-hold-ns = <8>;
196		ti,cs-read-strobe-ns = <40>;
197		ti,cs-read-setup-ns = <14>;
198		ti,cs-write-hold-ns = <7>;
199		ti,cs-write-strobe-ns = <40>;
200		ti,cs-write-setup-ns = <14>;
201		ti,cs-bus-width = <16>;
202
203		flash@0,0x0000000 {
204			compatible = "cfi-flash";
205			reg = <0 0x0000000 0x4000000>;
206
207			...
208		};
209	};
210};
211