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/linux/drivers/comedi/drivers/ni_routing/ni_route_values/
H A Dni_mseries.c57 [B(TRIGGER_LINE(0))] = I(18),
58 [B(TRIGGER_LINE(1))] = I(19),
59 [B(TRIGGER_LINE(2))] = I(20),
60 [B(TRIGGER_LINE(3))] = I(21),
61 [B(TRIGGER_LINE(4))] = I(22),
62 [B(TRIGGER_LINE(5))] = I(23),
63 [B(TRIGGER_LINE(6))] = I(24),
64 [B(TRIGGER_LINE(7))] = I(25),
65 [B(NI_CtrSource(0))] = I(9),
66 [B(NI_CtrSource(1))] = I(4),
[all …]
H A Dni_eseries.c54 [B(NI_AI_StartTrigger)] = I(NI_PFI_OUTPUT_AI_START1),
57 [B(NI_AI_ReferenceTrigger)] = I(NI_PFI_OUTPUT_AI_START2),
60 [B(NI_AI_ConvertClock)] = I(NI_PFI_OUTPUT_AI_CONVERT),
63 [B(NI_CtrSource(1))] = I(NI_PFI_OUTPUT_G_SRC1),
66 [B(NI_CtrGate(1))] = I(NI_PFI_OUTPUT_G_GATE1),
69 [B(NI_AO_SampleClock)] = I(NI_PFI_OUTPUT_AO_UPDATE_N),
72 [B(NI_AO_StartTrigger)] = I(NI_PFI_OUTPUT_AO_START1),
75 [B(NI_AI_SampleClock)] = I(NI_PFI_OUTPUT_AI_START_PULSE),
78 [B(NI_CtrSource(0))] = I(NI_PFI_OUTPUT_G_SRC0),
81 [B(NI_CtrGate(0))] = I(NI_PFI_OUTPUT_G_GATE0),
[all …]
H A Dni_660x.c49 [B(NI_CtrInternalOutput(7))] = I(1),
52 [B(NI_CtrGate(7))] = I(1),
55 [B(NI_CtrSource(7))] = I(1),
58 [B(NI_CtrInternalOutput(6))] = I(1),
61 [B(NI_CtrGate(6))] = I(1),
64 [B(NI_CtrSource(6))] = I(1),
67 [B(NI_CtrInternalOutput(5))] = I(1),
70 [B(NI_CtrGate(5))] = I(1),
73 [B(NI_CtrSource(5))] = I(1),
76 [B(NI_CtrInternalOutput(4))] = I(1),
[all …]
/linux/Documentation/translations/zh_CN/virt/acrn/
H A Dio-request.rst16 I/O请求处理
19 客户虚拟机的I/O请求由超级管理器构建,由ACRN超级管理器服务模块分发到与I/O请求的地址范
20 围相对应的I/O客户端。I/O请求处理的细节将在以下章节描述。
22 1. I/O请求
26 I/O请求通信。一个I/O请求是一个256字节的结构体缓冲区,它是 "acrn_io_request" 结构
27 体,当客户虚拟机中发生被困的I/O访问时,由超级管理器的I/O处理器填充。服务虚拟机中的
29 台。缓冲区被用作16个I/O请求槽的数组,每个I/O请求槽为256字节。这个数组是按vCPU ID
32 2. I/O客户端
35 一个I/O客户端负责处理客户虚拟机的I/O请求,其访问的GPA在一定范围内。每个客户虚拟机
36 可以关联多个I/O客户端。每个客户虚拟机都有一个特殊的客户端,称为默认客户端,负责处理
[all …]
/linux/Documentation/virt/acrn/
H A Dio-request.rst3 I/O request handling
6 An I/O request of a User VM, which is constructed by the hypervisor, is
7 distributed by the ACRN Hypervisor Service Module to an I/O client
8 corresponding to the address range of the I/O request. Details of I/O request
11 1. I/O request
14 For each User VM, there is a shared 4-KByte memory region used for I/O requests
15 communication between the hypervisor and Service VM. An I/O request is a
17 an I/O handler of the hypervisor when a trapped I/O access happens in a User
20 used as an array of 16 I/O request slots with each I/O request slot being 256
23 2. I/O clients
[all …]
/linux/arch/powerpc/perf/
H A Dhv-gpci-requests.h51 #include I(REQUEST_BEGIN)
67 #include I(REQUEST_END)
72 #include I(REQUEST_BEGIN)
80 #include I(REQUEST_END)
90 #include I(REQUEST_BEGIN)
95 #include I(REQUEST_END)
101 #include I(REQUEST_BEGIN)
106 #include I(REQUEST_END)
112 #include I(REQUEST_BEGIN)
121 #include I(REQUEST_END)
[all …]
/linux/arch/loongarch/include/asm/
H A Datomic.h37 #define ATOMIC_OP(op, I, asm_op) \ argument
43 : "r" (I) \
47 #define ATOMIC_OP_RETURN(op, I, asm_op, c_op, mb, suffix) \ argument
55 : "r" (I) \
58 return result c_op I; \
61 #define ATOMIC_FETCH_OP(op, I, asm_op, mb, suffix) \ argument
69 : "r" (I) \
75 #define ATOMIC_OPS(op, I, asm_op, c_op) \ argument
76 ATOMIC_OP(op, I, asm_op) \
77 ATOMIC_OP_RETURN(op, I, asm_op, c_op, _db, ) \
[all …]
/linux/drivers/net/ethernet/qlogic/netxen/
H A Dnetxen_nic_hdr.h551 #define NETXEN_NIU_GB_MAC_CONFIG_0(I) \ argument
552 (NETXEN_CRB_NIU + 0x30000 + (I)*0x10000)
553 #define NETXEN_NIU_GB_MAC_CONFIG_1(I) \ argument
554 (NETXEN_CRB_NIU + 0x30004 + (I)*0x10000)
555 #define NETXEN_NIU_GB_MAC_IPG_IFG(I) \ argument
556 (NETXEN_CRB_NIU + 0x30008 + (I)*0x10000)
557 #define NETXEN_NIU_GB_HALF_DUPLEX_CTRL(I) \ argument
558 (NETXEN_CRB_NIU + 0x3000c + (I)*0x10000)
559 #define NETXEN_NIU_GB_MAX_FRAME_SIZE(I) \ argument
560 (NETXEN_CRB_NIU + 0x30010 + (I)*0x10000)
[all …]
/linux/arch/xtensa/variants/test_kc705_hifi/include/variant/
H A Dtie-asm.h222 AE_S64.I aed0, \ptr, .Lxchal_ofs_+24
223 AE_S64.I aed1, \ptr, .Lxchal_ofs_+32
224 AE_S64.I aed2, \ptr, .Lxchal_ofs_+40
225 AE_S64.I aed3, \ptr, .Lxchal_ofs_+48
226 AE_S64.I aed4, \ptr, .Lxchal_ofs_+56
228 AE_S64.I aed5, \ptr, .Lxchal_ofs_+0
229 AE_S64.I aed6, \ptr, .Lxchal_ofs_+8
230 AE_S64.I aed7, \ptr, .Lxchal_ofs_+16
231 AE_S64.I aed8, \ptr, .Lxchal_ofs_+24
232 AE_S64.I aed9, \ptr, .Lxchal_ofs_+32
[all …]
/linux/Documentation/block/
H A Dstat.rst29 read I/Os requests number of read I/Os processed
30 read merges requests number of read I/Os merged with in-queue I/O
33 write I/Os requests number of write I/Os processed
34 write merges requests number of write I/Os merged with in-queue I/O
37 in_flight requests number of I/Os currently in flight
40 discard I/Os requests number of discard I/Os processed
41 discard merges requests number of discard I/Os merged with in-queue I/O
44 flush I/Os requests number of flush I/Os processed
48 read I/Os, write I/Os, discard I/0s
51 These values increment when an I/O request completes.
[all …]
/linux/security/apparmor/include/
H A Dlabel.h156 #define label_for_each(I, L, P) \ argument
157 for ((I).i = 0; ((P) = (L)->vec[(I).i]); ++((I).i))
160 #define label_for_each_cont(I, L, P) \ argument
161 for (++((I).i); ((P) = (L)->vec[(I).i]); ++((I).i))
166 #define label_for_each_confined(I, L, P) \
167 for ((I)
163 next_comb(I,L1,L2) global() argument
174 label_for_each_comb(I,L1,L2,P1,P2) global() argument
190 label_for_each_confined(I,L,P) global() argument
195 label_for_each_in_merge(I,A,B,P) global() argument
200 label_for_each_not_in_set(I,SET,SUB,P) global() argument
213 label_for_each_in_ns(I,NS,L,P) global() argument
[all...]
/linux/arch/xtensa/variants/test_mmuhifi_c3/include/variant/
H A Dtie-asm.h109 AE_SP24X2S.I aep0, \ptr, 16
110 AE_SP24X2S.I aep1, \ptr, 24
111 AE_SP24X2S.I aep2, \ptr, 32
112 AE_SP24X2S.I aep3, \ptr, 40
113 AE_SP24X2S.I aep4, \ptr, 48
114 AE_SP24X2S.I aep5, \ptr, 56
116 AE_SP24X2S.I aep6, \ptr, 0
117 AE_SP24X2S.I aep7, \ptr, 8
118 AE_SQ56S.I aeq0, \ptr, 16
119 AE_SQ56S.I aeq1, \ptr, 24
[all …]
/linux/crypto/
H A Dcast6_generic.c27 #define F1(D, r, m) ((I = ((m) + (D))), (I = rol32(I, (r))), \
28 (((s1[I >> 24] ^ s2[(I>>16)&0xff]) - s3[(I>>8)&0xff]) + s4[I&0xff]))
29 #define F2(D, r, m) ((I = ((m) ^ (D))), (I = rol32(I, (r))), \
30 (((s1[I >> 24] - s2[(I>>16)&0xff]) + s3[(I>>8)&0xff]) ^ s4[I&0xff]))
31 #define F3(D, r, m) ((I = ((m) - (D))), (I = rol32(I, (r))), \
32 (((s1[I >> 24] + s2[(I>>16)&0xff]) ^ s3[(I>>8)&0xff]) - s4[I&0xff]))
95 u32 I; in W() local
155 u32 I; in Q() local
165 u32 I; in QBAR() local
H A Dcast5_generic.c295 #define F1(D, m, r) ((I = ((m) + (D))), (I = rol32(I, (r))), \
296 (((s1[I >> 24] ^ s2[(I>>16)&0xff]) - s3[(I>>8)&0xff]) + s4[I&0xff]))
297 #define F2(D, m, r) ((I = ((m) ^ (D))), (I = rol32(I, (r))), \
298 (((s1[I >> 24] - s2[(I>>16)&0xff]) + s3[(I>>8)&0xff]) ^ s4[I&0xff]))
299 #define F3(D, m, r) ((I = ((m) - (D))), (I = rol32(I, (r))), \
300 (((s1[I >> 24] + s2[(I>>16)&0xff]) ^ s3[(I>>8)&0xff]) - s4[I&0xff]))
306 u32 I; /* used by the Fx macros */ in __cast5_encrypt() local
361 u32 I; in __cast5_decrypt() local
/linux/include/linux/platform_data/
H A Dadp8870.h85 #define ADP8870_BL_CUR_mA(I) ((I * 127) / 30) argument
90 #define ADP8870_L2_COMP_CURR_uA(I) ((I * 255) / 1106) argument
95 #define ADP8870_L3_COMP_CURR_uA(I) ((I * 255) / 551) argument
100 #define ADP8870_L4_COMP_CURR_uA(I) ((I * 255) / 275) argument
105 #define ADP8870_L5_COMP_CURR_uA(I) ((I * 255) / 138) argument
/linux/drivers/gpu/drm/nouveau/nvkm/engine/ce/fuc/
H A Dcom.fuc146 iowr I[$r1 + 0x300] $r2
150 iowr I[$r1] $r2
156 iowr I[$r1] $r2
166 iord $r1 I[$r0 + 0x200]
178 iowr I[$r0 + 0x100] $r1
192 iord $r4 I[$r4 + 0]
201 iowrs I[$r15] $r5
220 iowrs I[$r15] $r14
245 iord $r3 I[$r2]
253 iowr I[$r2] $r3
[all …]
/linux/Documentation/hwmon/
H A Dit87.rst10 Addresses scanned: from Super I/O config space (8 I/O ports)
18 Addresses scanned: from Super I/O config space (8 I/O ports)
24 Addresses scanned: from Super I/O config space (8 I/O ports)
32 Addresses scanned: from Super I/O config space (8 I/O ports)
40 Addresses scanned: from Super I/O config space (8 I/O ports)
48 Addresses scanned: from Super I/O config space (8 I/O ports)
56 Addresses scanned: from Super I/O config space (8 I/O ports)
64 Addresses scanned: from Super I/O config space (8 I/O ports)
72 Addresses scanned: from Super I/O config space (8 I/O ports)
80 Addresses scanned: from Super I/O config space (8 I/O ports)
[all …]
/linux/Documentation/admin-guide/device-mapper/
H A Ddm-io.rst5 Dm-io provides synchronous and asynchronous I/O services. There are three
6 types of I/O services available, and each type has a sync and an async
10 of the I/O. Each io_region indicates a block-device along with the starting
22 The first I/O service type takes a list of memory pages as the data buffer for
23 the I/O, along with an offset into the first page::
37 The second I/O service type takes an array of bio vectors as the data buffer
38 for the I/O. This service can be handy if the caller has a pre-assembled bio,
48 The third I/O service type takes a pointer to a vmalloc'd memory buffer as the
49 data buffer for the I/O. This service can be handy if the caller needs to do
50 I/O to a large region but doesn't want to allocate a large number of individual
[all …]
/linux/Documentation/arch/s390/
H A Dcds.rst6 Device Driver I/O Support Routines
19 I/O access method. This gives relief to the device drivers as they don't
22 I/O (PIO), and other hardware features more. However, this implies that
23 either every single device driver needs to implement the hardware I/O
32 In order to build common device support for ESA/390 I/O interfaces, a
33 functional layer was introduced that provides generic I/O access methods to
36 The common device support layer comprises the I/O support routines defined
67 initiate an I/O request.
73 terminate the current I/O request processed on the device.
77 routine whenever an I/O interrupt is presented to the system. The do_IRQ()
[all …]
H A Dvfio-ccw.rst8 Here we describe the vfio support for I/O subchannel devices for
13 I/O access method, which is so called Channel I/O. It has its own access
23 vfio framework. And we add read/write callbacks for special vfio I/O
25 (the real I/O subchannel device) to do further address translation and
26 to perform I/O instructions.
28 This document does not intend to explain the s390 I/O architecture in
31 - A good start to know Channel I/O in general:
47 paravirtualized virtio devices via the "Virtio Over Channel I/O
52 use the standard Channel I/O based mechanism, we also need to provide
71 defined access method and they are presenting I/O completion a unified
[all …]
/linux/drivers/media/tuners/
H A Dmt2060.c136 int I,J; in mt2060_spurcalc() local
139 for (I = 1; I < 10; I++) { in mt2060_spurcalc()
140 J = ((2*I*lo1)/lo2+1)/2; in mt2060_spurcalc()
141 diff = I*(int)lo1-J*(int)lo2; in mt2060_spurcalc()
156 int I,J; in mt2060_spurcheck() local
157 I=0; in mt2060_spurcheck()
165 I=1000; in mt2060_spurcheck()
166 Sp1 = mt2060_spurcalc(lo1+I,lo2+I,if2); in mt2060_spurcheck()
167 Sp2 = mt2060_spurcalc(lo1-I,lo2-I,if2); in mt2060_spurcheck()
170 J=-J; I=-I; Spur=Sp2; in mt2060_spurcheck()
[all …]
/linux/Documentation/userspace-api/media/v4l/
H A Dpixfmt-sdr-pcu20be.rst15 number consist of two parts called In-phase and Quadrature (IQ). Both I
18 padded with 0. I value starts first and Q value starts at an offset
36 - I'\ :sub:`0[19:12]`
37 - I'\ :sub:`0[11:4]`
38 - I'\ :sub:`0[3:0]; B2[3:0]=pad`
41 - I'\ :sub:`1[19:12]`
42 - I'\ :sub:`1[11:4]`
43 - I'\ :sub:`1[3:0]; B2[3:0]=pad`
H A Dpixfmt-sdr-pcu18be.rst15 number consist of two parts called In-phase and Quadrature (IQ). Both I
18 padded with 0. I value starts first and Q value starts at an offset
36 - I'\ :sub:`0[17:10]`
37 - I'\ :sub:`0[9:2]`
38 - I'\ :sub:`0[1:0]; B2[5:0]=pad`
41 - I'\ :sub:`1[17:10]`
42 - I'\ :sub:`1[9:2]`
43 - I'\ :sub:`1[1:0]; B2[5:0]=pad`
/linux/Documentation/driver-api/
H A Ds390-drivers.rst11 drive s390 based channel attached I/O devices. This includes interfaces
14 I/O layer.
17 with the s390 channel I/O architecture. For a description of this
21 While most I/O devices on a s390 system are typically driven through the
22 channel I/O mechanism described here, there are various other methods
25 The s390 common I/O layer also provides access to some devices that are
26 not strictly considered I/O devices. They are considered here as well,
38 * Standard I/O subchannels, for use by the system. They have a child
40 * I/O subchannels bound to the vfio-ccw driver. See
53 so-called channel attached devices. They are addressed via I/O
[all …]
/linux/drivers/input/joystick/iforce/
H A DKconfig3 # I-Force driver configuration
6 tristate "I-Force devices"
9 Say Y here if you have an I-Force joystick or steering wheel
17 tristate "I-Force USB joysticks and wheels"
20 Say Y here if you have an I-Force joystick or steering wheel
24 tristate "I-Force Serial joysticks and wheels"
27 Say Y here if you have an I-Force joystick or steering wheel

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