1 menu "Self-contained MTD device drivers"
6 tristate "Ramix PMC551 PCI Mezzanine RAM card support"
9 This provides a MTD device driver for the Ramix PMC551 RAM PCI card
10 from Ramix Inc. <http://www.ramix.com/products/memory/pmc551.html>.
11 These devices come in memory configurations from 32M - 1G. If you
12 have one, you probably want to enable this.
14 If this driver is compiled as a module you get the ability to select
15 the size of the aperture window pointing into the devices memory.
16 What this means is that if you have a 1G card, normally the kernel
17 will use a 1G memory map as its view of the device. As a module,
18 you can select a 1M window into the memory and the driver will
19 "slide" the window around the PMC551's memory. This was
20 particularly useful on the 2.2 kernels on PPC architectures as there
21 was limited kernel space to deal with.
23 config MTD_PMC551_BUGFIX
24 bool "PMC551 256M DRAM Bugfix"
27 Some of Ramix's PMC551 boards with 256M configurations have invalid
28 column and row mux values. This option will fix them, but will
29 break other memory configurations. If unsure say N.
31 config MTD_PMC551_DEBUG
32 bool "PMC551 Debugging"
35 This option makes the PMC551 more verbose during its operation and
36 is only really useful if you are developing on this driver or
37 suspect a possible hardware or driver bug. If unsure say N.
40 tristate "DEC MS02-NV NVRAM module support"
41 depends on MACH_DECSTATION
43 This is an MTD driver for the DEC's MS02-NV (54-20948-01) battery
44 backed-up NVRAM module. The module was originally meant as an NFS
45 accelerator. Say Y here if you have a DECstation 5000/2x0 or a
46 DECsystem 5900 equipped with such a module.
48 If you want to compile this driver as a module ( = code which can be
49 inserted in and removed from the running kernel whenever you want),
50 say M here and read <file:Documentation/kbuild/modules.txt>.
51 The module will be called ms02-nv.
54 tristate "Support for AT45xxx DataFlash"
57 This enables access to AT45xxx DataFlash chips, using SPI.
58 Sometimes DataFlash chips are packaged inside MMC-format
59 cards; at this writing, the MMC stack won't handle those.
61 config MTD_DATAFLASH_WRITE_VERIFY
62 bool "Verify DataFlash page writes"
63 depends on MTD_DATAFLASH
65 This adds an extra check when data is written to the flash.
66 It may help if you are verifying chip setup (timings etc) on
67 your board. There is a rare possibility that even though the
68 device thinks the write was successful, a bit could have been
69 flipped accidentally due to device wear or something else.
71 config MTD_DATAFLASH_OTP
72 bool "DataFlash OTP support (Security Register)"
73 depends on MTD_DATAFLASH
75 Newer DataFlash chips (revisions C and D) support 128 bytes of
76 one-time-programmable (OTP) data. The first half may be written
77 (once) with up to 64 bytes of data, such as a serial number or
78 other key product data. The second half is programmed with a
79 unique-to-each-chip bit pattern at the factory.
82 tristate "Support most SPI Flash chips (AT26DF, M25P, W25X, ...)"
85 This enables access to most modern SPI flash chips, used for
86 program and data storage. Series supported include Atmel AT26DF,
87 Spansion S25SL, SST 25VF, ST M25P, and Winbond W25X. Other chips
88 are supported as well. See the driver source for the current list,
89 or to add other chips.
91 Note that the original DataFlash chips (AT45 series, not AT26DF),
92 need an entirely different driver.
94 Set up your spi devices with the right board-specific platform data,
95 if you want to specify device partitioning or to use a device which
96 doesn't support the JEDEC ID instruction.
99 tristate "SPEAR MTD NOR Support through SMI controller"
100 depends on PLAT_SPEAR
103 This enable SNOR support on SPEAR platforms using SMI controller
106 tristate "Support SST25L (non JEDEC) SPI Flash chips"
107 depends on SPI_MASTER
109 This enables access to the non JEDEC SST25L SPI flash chips, used
110 for program and data storage.
112 Set up your spi devices with the right board-specific platform data,
113 if you want to specify device partitioning.
115 config MTD_BCM47XXSFLASH
116 tristate "R/O support for serial flash on BCMA bus"
117 depends on BCMA_SFLASH
119 BCMA bus can have various flash memories attached, they are
120 registered by bcma as platform devices. This enables driver for
121 serial flash memories (only read-only mode is implemented).
124 tristate "Uncached system RAM"
126 If your CPU cannot cache all of the physical memory in your machine,
127 you can still use it for storage or swap by using this driver to
128 present it to the system as a Memory Technology Device.
131 tristate "Physical system RAM"
133 This is a re-implementation of the slram driver above.
135 Use this driver to access physical memory that the kernel proper
136 doesn't have access to, memory beyond the mem=xxx limit, nvram,
137 memory on the video card, etc...
140 tristate "28F160xx flash driver for LART"
141 depends on SA1100_LART
143 This enables the flash driver for LART. Please note that you do
144 not need any mapping/chip driver for LART. This one does it all
145 for you, so go disable all of those if you enabled some of them (:
148 tristate "Test driver using RAM"
150 This enables a test MTD device driver which uses vmalloc() to
151 provide storage. You probably want to say 'N' unless you're
154 config MTDRAM_TOTAL_SIZE
155 int "MTDRAM device size in KiB"
156 depends on MTD_MTDRAM
159 This allows you to configure the total size of the MTD device
160 emulated by the MTDRAM driver. If the MTDRAM driver is built
161 as a module, it is also possible to specify this as a parameter when
164 config MTDRAM_ERASE_SIZE
165 int "MTDRAM erase block size in KiB"
166 depends on MTD_MTDRAM
169 This allows you to configure the size of the erase blocks in the
170 device emulated by the MTDRAM driver. If the MTDRAM driver is built
171 as a module, it is also possible to specify this as a parameter when
174 #If not a module (I don't want to test it as a module)
175 config MTDRAM_ABS_POS
176 hex "SRAM Hexadecimal Absolute position or 0"
177 depends on MTD_MTDRAM=y
180 If you have system RAM accessible by the CPU but not used by Linux
181 in normal operation, you can give the physical address at which the
182 available RAM starts, and the MTDRAM driver will use it instead of
183 allocating space from Linux's available memory. Otherwise, leave
184 this set to zero. Most people will want to leave this as zero.
187 tristate "MTD using block device"
190 This driver allows a block device to appear as an MTD. It would
191 generally be used in the following cases:
193 Using Compact Flash as an MTD, these usually present themselves to
194 the system as an ATA drive.
195 Testing MTD users (eg JFFS2) on large media and media that might
196 be removed during a write (using the floppy drive).
198 comment "Disk-On-Chip Device Drivers"
201 tristate "M-Systems Disk-On-Chip G3"
203 select BCH_CONST_PARAMS
206 This provides an MTD device driver for the M-Systems DiskOnChip
209 The driver provides access to G3 DiskOnChip, distributed by
210 M-Systems and now Sandisk. The support is very experimental,
211 and doesn't give access to any write operations.