| /linux-6.15/arch/m68k/fpsp040/ |
| H A D | setox.S | 464 |--Step 1.
479 |--Step 2.
501 |--Step 3.
511 |--Step 4.
549 |--Step 5
560 |--Step 6
571 |--Step 7
578 |--Step 8
610 |--Step 9
726 |--Step 5
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| H A D | slog2.S | 32 | Step 0. If X < 0, create a NaN and raise the invalid operation
37 | Step 1. Call slognd to obtain Y = log(X), the natural log of X.
40 | Step 2. Compute log_10(X) = log(X) * (1/log(10)).
47 | Step 0. If X < 0, create a NaN and raise the invalid operation
52 | Step 1. Call sLogN to obtain Y = log(X), the natural log of X.
54 | Step 2. Compute log_10(X) = log(X) * (1/log(10)).
69 | Step 2. Compute log_10(X) = log(X) * (1/log(2)).
81 | Step 1. If X is not an integer power of two, i.e., X != 2^k,
82 | go to Step 3.
84 | Step 2. Return k.
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| H A D | srem_mod.S | 28 | Step 2. Set L := expo(X)-expo(Y), k := 0, Q := 0.
30 | R := X, go to Step 4.
35 | Step 3. Perform MOD(X,Y)
36 | 3.1 If R = Y, go to Step 9.
38 | 3.3 If j = 0, go to Step 4.
40 | Step 3.1.
44 | MOD is requested, go to Step 6.
46 | Step 5. R = MOD(X,Y), but REM(X,Y) is requested.
48 | Step 6.
54 | Step 6. R := signX*R.
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| H A D | satan.S | 23 | Step 1. If |X| >= 16 or |X| < 1/16, go to Step 5.
25 | Step 2. Let X = sgn * 2**k * 1.xxxxxxxx...x. Note that k = -4, -3,..., or 3.
30 | Step 3. Approximate arctan(u) by a polynomial poly.
32 | Step 4. Return arctan(F) + poly, arctan(F) is fetched from a table of values
35 | Step 5. If |X| >= 16, go to Step 7.
37 | Step 6. Approximate arctan(X) by an odd polynomial in X. Exit.
39 | Step 7. Define X' = -1/X. Approximate arctan(X') by an odd polynomial in X'.
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| H A D | slogn.S | 27 | Step 1. If |X-1| < 1/16, approximate log(X) by an odd polynomial in
28 | u, where u = 2(X-1)/(X+1). Otherwise, move on to Step 2.
30 | Step 2. X = 2**k * Y where 1 <= Y < 2. Define F to be the first seven
34 | Step 3. Define u = (Y-F)/F. Approximate log(1+u) by a polynomial in u,
37 | Step 4. Reconstruct log(X) = log( 2**k * Y ) = k*log(2) + log(F) + log(1+u)
42 | Step 1: If |X| < 1/16, approximate log(1+X) by an odd polynomial in
43 | u where u = 2X/(2+X). Otherwise, move on to Step 2.
45 | Step 2: Let 1+X = 2**k * Y, where 1 <= Y < 2. Define F as done in Step 2
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| /linux-6.15/arch/arm/mach-sa1100/ |
| H A D | sleep.S | 119 @ Step 1 clear RT field of all MSCx registers
124 @ Step 2 clear DRI field in MDREFR
127 @ Step 3 set SLFRSH bit in MDREFR
130 @ Step 4 clear DE bis in MDCNFG
133 @ Step 5 clear DRAM refresh control register
139 @ Step 6 set force sleep bit in PMCR
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| /linux-6.15/Documentation/devicetree/bindings/iio/amplifiers/ |
| H A D | adi,hmc425a.yaml | 7 title: Analog Devices HMC425A and similar Digital Step Attenuators
13 Digital Step Attenuator IIO devices with gpio interface.
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| /linux-6.15/Documentation/driver-api/driver-model/ |
| H A D | porting.rst | 34 Step 0: Read include/linux/device.h for object and function definitions.
36 Step 1: Registering the bus driver.
91 Step 2: Registering Devices.
228 Step 3: Registering Drivers.
281 Step 4: Define Generic Methods for Drivers.
328 Step 5: Support generic driver binding.
377 Step 6: Supply a hotplug callback.
400 Step 7: Cleaning up the bus driver.
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| /linux-6.15/arch/arm/boot/dts/amlogic/ |
| H A D | meson8b-ec100.dts | 171 * Synchronous Step Down Regulator.
204 * Synchronous Step Down Regulator. Also called
219 * Synchronous Step Down Regulator. Also called
254 * Synchronous Step Down Regulator. Also called VDDAO
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| /linux-6.15/arch/m68k/ifpsp060/src/ |
| H A D | fplsp.S | 7104 #--Step 1.
7119 #--Step 2.
7141 #--Step 3.
7150 #--Step 4.
7184 #--Step 5
7195 #--Step 6
7207 #--Step 7
7214 #--Step 8
7245 #--Step 9
7356 #--Step 5
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| H A D | fpsp.S | 6160 # Step 1. If |X| >= 16 or |X| < 1/16, go to Step 5. #
6173 # Step 5. If |X| >= 16, go to Step 7. #
6978 # Step 1. Set ans := 0 #
6987 # Step 1. Check |X| #
6989 # 1.2 Go to Step 7. #
6991 # 1.4 Go to Step 10. #
7009 # Step 3. Calculate X - N*log2/64. #
7033 # Step 5. Compute 2^(J/64)*p by #
7048 # 6.1 If M <= 63, go to Step 6.3. #
7058 # Step 7. exp(X)-1 for |X| < 1/4. #
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| /linux-6.15/Documentation/devicetree/bindings/regulator/ |
| H A D | maxim,max20411.yaml | 7 title: Maxim Integrated MAX20411 Step-Down DC-DC Converter
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| H A D | richtek,rt5739.yaml | 7 title: Richtek RT5739 Step-Down Buck Converter
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| /linux-6.15/Documentation/admin-guide/LSM/ |
| H A D | SELinux.rst | 29 Step 4 will create a new dummy policy valid for your
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| /linux-6.15/Documentation/hwmon/ |
| H A D | ltc3815.rst | 20 LTC3815 is a Monolithic Synchronous DC/DC Step-Down Converter.
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| H A D | max20730.rst | 47 Integrated, Step-Down Switching Regulators with PMBus support.
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| H A D | lt7182s.rst | 22 LT7182S is a Dual Channel 6A, 20V PolyPhase Step-Down Silent Switcher with
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| /linux-6.15/Documentation/userspace-api/media/v4l/ |
| H A D | vidioc-enum-framesizes.rst | 54 - **Step-wise:** The function returns success if the given index value
187 - Step-wise defined frame size.
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| H A D | vidioc-enum-frameintervals.rst | 53 - **Step-wise:** The function returns success if the given index value
179 - Step-wise defined frame interval.
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| H A D | ext-ctrls-fm-tx.rst | 107 useconds. Step and range are driver-specific.
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| /linux-6.15/Documentation/devicetree/bindings/mfd/ |
| H A D | ams,as3711.yaml | 26 Step-up converter configuration, to be used as a backlight source
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| /linux-6.15/Documentation/networking/ |
| H A D | net_dim.rst | 56 considered "better". Step #2 has an optimization for avoiding false results: it
61 Step #3 decides on the suggested configuration based on the result from step #2
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| /linux-6.15/Documentation/scsi/ |
| H A D | scsi_eh.rst | 101 Step #2 is taken.
111 expired. In these cases Step #3 is taken.
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| /linux-6.15/Documentation/core-api/ |
| H A D | debugging-via-ohci1394.rst | 89 Step-by-step instructions for using firescope with early OHCI initialization:
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| /linux-6.15/drivers/regulator/ |
| H A D | Kconfig | 622 chip to control Step-Down DC-DC and LDOs. Say Y here to
672 chip to control Step-Down DC-DC and LDOs.
726 tristate "Maxim MAX20411 High-Efficiency Single Step-Down Converter"
1477 The TPS51632 is 3-2-1 Phase D-Cap+ Step Down Driverless Controller
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