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spakk

patched kernel 10.11.x Pentium / Celeron / ATOM Kernel

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Hi guys, I need testers who have netbook with Intel Atom or Celeron Processor

I want to know, whether the kernel boots or not and If not, then upload an image with Details of what point the system gets stuck with information what bootloader do you use.

thx

10.11.6-IPCA.zip

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I would like to test but... My cheap tablet with ATOM Z3735G does not accept booting 64 bit efi, also if the cpu support x64 architecture.

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I would like to test but... My cheap tablet with ATOM Z3735G does not accept booting 64 bit efi, also if the cpu support x64 architecture.

 

But Windows 10 accepted?

No, there is another reason.

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But Windows 10 accepted?

No, there is another reason.

Yes, windows 10 accepted, but only 32 bit.

 

 

Inviato dal mio iPhone utilizzando Tapatalk

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i have a Acer ES1 431 with  Celeron N3160. i have tried all kernel i can found, but all boot failed.(10.9.x, 10.10.x, 10.11.2)

is there any kernel i can try?

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i try this patched kernel 10.11.6-IPCA.zip on my acer Aspire ES1-431 with Celeron N3160.

it boot failed and reboot. before reboot it just shows cpu information.
loader: Chameleon 2.3.r2839.Enoch
Kernel Flags: -v -f ncpi=3000 kext-dev-mode=1 rootless=0
Celeron N3160 CPUID:  406C4          (Celeron N3150 CPUID: 406C3) 
 
when using origin kernel it will panic: "tsc_init: EFI not supported\n"@/Users/patryk/kernel/xnu-....../osfmk/i386/tsc.c:211
 
no luck :(

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where do i place this kernel in my el capitan installer?

By default, the kernel belongs into S/L/Kernels

 

 

test and reports

the kernels should be now OK

10.11.6-IPCA.zip

10.11.6-IPCA-1.zip

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Hi @spakk, do you have the source code for this patched kernel, or an update for 10.12 / 10.13? I am keen to continue testing and development for Cherry Trail (x5/x7) kernel support. 

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into method label TACH code_regex \(TAH1, replace_matched begin (B1B2(TH10,TH11), end; into method label GFAN code_regex \(\\_SB\.PCI0\.LPCB\.EC0\.TAH0, replace_matched begin (B1B2(\\_SB.PCI0.LPCB.EC0.TH00,\\_SB.PCI0.LPCB.EC0.TH01), end; # battery EC into device label EC0 code_regex B0SN,\s+16 replace_matched begin B0S0,8,B0S1,8 end; into device label EC0 code_regex B1SN,\s+16 replace_matched begin B1S0,8,B1S1,8 end; into method label BIFA code_regex \(B0SN, replace_matched begin (B1B2(B0S0,B0S1), end; into method label BIFA code_regex \(B1SN, replace_matched begin (B1B2(B1S0,B1S1), end; into device label EC0 code_regex DT2B,\s+16 replace_matched begin T2B0,8,T2B1,8 end; into method label SMBR code_regex \(DT2B, replace_matched begin (B1B2(T2B0,T2B1), end; into method label SMBW code_regex Store\s+\(([^,]*),\s+DT2B\) replace_matched begin Store(%1,T2B0) Store(ShiftRight(%1,8),T2B1) end; into device label EC0 insert begin Method (RDBA, 0, Serialized)\n {\n Name (TEMP, Buffer(0x20) { })\n Store (BA00, Index(TEMP, 0x00))\n Store (BA01, Index(TEMP, 0x01))\n Store (BA02, Index(TEMP, 0x02))\n Store (BA03, Index(TEMP, 0x03))\n Store (BA04, Index(TEMP, 0x04))\n Store (BA05, Index(TEMP, 0x05))\n Store (BA06, Index(TEMP, 0x06))\n Store (BA07, Index(TEMP, 0x07))\n Store (BA08, Index(TEMP, 0x08))\n Store (BA09, Index(TEMP, 0x09))\n Store (BA0A, Index(TEMP, 0x0A))\n Store (BA0B, Index(TEMP, 0x0B))\n Store (BA0C, Index(TEMP, 0x0C))\n Store (BA0D, Index(TEMP, 0x0D))\n Store (BA0E, Index(TEMP, 0x0E))\n Store (BA0F, Index(TEMP, 0x0F))\n Store (BA10, Index(TEMP, 0x10))\n Store (BA11, Index(TEMP, 0x11))\n Store (BA12, Index(TEMP, 0x12))\n Store (BA13, Index(TEMP, 0x13))\n Store (BA14, Index(TEMP, 0x14))\n Store (BA15, Index(TEMP, 0x15))\n Store (BA16, Index(TEMP, 0x16))\n Store (BA17, Index(TEMP, 0x17))\n Store (BA18, Index(TEMP, 0x18))\n Store (BA19, Index(TEMP, 0x19))\n Store (BA1A, Index(TEMP, 0x1A))\n Store (BA1B, Index(TEMP, 0x1B))\n Store (BA1C, Index(TEMP, 0x1C))\n Store (BA1D, Index(TEMP, 0x1D))\n Store (BA1E, Index(TEMP, 0x1E))\n Store (BA1F, Index(TEMP, 0x1F))\n Return (TEMP)\n }\n end; into device label EC0 insert begin Method (WRBA, 1, Serialized)\n {\n Name (TEMP, Buffer(0x20) { })\n Store (Arg0, TEMP)\n Store (DerefOf(Index(TEMP, 0x00)), BA00)\n Store (DerefOf(Index(TEMP, 0x01)), BA01)\n Store (DerefOf(Index(TEMP, 0x02)), BA02)\n Store (DerefOf(Index(TEMP, 0x03)), BA03)\n Store (DerefOf(Index(TEMP, 0x04)), BA04)\n Store (DerefOf(Index(TEMP, 0x05)), BA05)\n Store (DerefOf(Index(TEMP, 0x06)), BA06)\n Store (DerefOf(Index(TEMP, 0x07)), BA07)\n Store (DerefOf(Index(TEMP, 0x08)), BA08)\n Store (DerefOf(Index(TEMP, 0x09)), BA09)\n Store (DerefOf(Index(TEMP, 0x0A)), BA0A)\n Store (DerefOf(Index(TEMP, 0x0B)), BA0B)\n Store (DerefOf(Index(TEMP, 0x0C)), BA0C)\n Store (DerefOf(Index(TEMP, 0x0D)), BA0D)\n Store (DerefOf(Index(TEMP, 0x0E)), BA0E)\n Store (DerefOf(Index(TEMP, 0x0F)), BA0F)\n Store (DerefOf(Index(TEMP, 0x10)), BA10)\n Store (DerefOf(Index(TEMP, 0x11)), BA11)\n Store (DerefOf(Index(TEMP, 0x12)), BA12)\n Store (DerefOf(Index(TEMP, 0x13)), BA13)\n Store (DerefOf(Index(TEMP, 0x14)), BA14)\n Store (DerefOf(Index(TEMP, 0x15)), BA15)\n Store (DerefOf(Index(TEMP, 0x16)), BA16)\n Store (DerefOf(Index(TEMP, 0x17)), BA17)\n Store (DerefOf(Index(TEMP, 0x18)), BA18)\n Store (DerefOf(Index(TEMP, 0x19)), BA19)\n Store (DerefOf(Index(TEMP, 0x1A)), BA1A)\n Store (DerefOf(Index(TEMP, 0x1B)), BA1B)\n Store (DerefOf(Index(TEMP, 0x1C)), BA1C)\n Store (DerefOf(Index(TEMP, 0x1D)), BA1D)\n Store (DerefOf(Index(TEMP, 0x1E)), BA1E)\n Store (DerefOf(Index(TEMP, 0x1F)), BA1F)\n }\n end; into device label EC0 code_regex BDAT,\s+256 replace_matched begin //BDAT, 256,\n BA00,8,BA01,8,BA02,8,BA03,8,\n BA04,8,BA05,8,BA06,8,BA07,8,\n BA08,8,BA09,8,BA0A,8,BA0B,8,\n BA0C,8,BA0D,8,BA0E,8,BA0F,8,\n BA10,8,BA11,8,BA12,8,BA13,8,\n BA14,8,BA15,8,BA16,8,BA17,8,\n BA18,8,BA19,8,BA1A,8,BA1B,8,\n BA1C,8,BA1D,8,BA1E,8,BA1F,8\n end; into method label SMBR code_regex \(BDAT, replaceall_matched begin (RDBA(), end; into method label SMBR code_regex Store\s\((.*),\sBDAT\) replaceall_matched begin WRBA(%1) end; into method label SMBW code_regex Store\s\((.*),\sBDAT\) replaceall_matched begin WRBA(%1) end; into method label ECSB code_regex Store\s\((.*),\sBDAT\) replaceall_matched begin WRBA(%1) end; into method label ECSB code_regex \(BDAT, replaceall_matched begin (RDBA(), end; into device label EC0 insert begin Method (RDBB, 0, Serialized)\n {\n Name (TEMP, Buffer(0x20) { })\n Store (BB00, Index(TEMP, 0x00))\n Store (BB01, Index(TEMP, 0x01))\n Store (BB02, Index(TEMP, 0x02))\n Store (BB03, Index(TEMP, 0x03))\n Store (BB04, Index(TEMP, 0x04))\n Store (BB05, Index(TEMP, 0x05))\n Store (BB06, Index(TEMP, 0x06))\n Store (BB07, Index(TEMP, 0x07))\n Store (BB08, Index(TEMP, 0x08))\n Store (BB09, Index(TEMP, 0x09))\n Store (BB0A, Index(TEMP, 0x0A))\n Store (BB0B, Index(TEMP, 0x0B))\n Store (BB0C, Index(TEMP, 0x0C))\n Store (BB0D, Index(TEMP, 0x0D))\n Store (BB0E, Index(TEMP, 0x0E))\n Store (BB0F, Index(TEMP, 0x0F))\n Store (BB10, Index(TEMP, 0x10))\n Store (BB11, Index(TEMP, 0x11))\n Store (BB12, Index(TEMP, 0x12))\n Store (BB13, Index(TEMP, 0x13))\n Store (BB14, Index(TEMP, 0x14))\n Store (BB15, Index(TEMP, 0x15))\n Store (BB16, Index(TEMP, 0x16))\n Store (BB17, Index(TEMP, 0x17))\n Store (BB18, Index(TEMP, 0x18))\n Store (BB19, Index(TEMP, 0x19))\n Store (BB1A, Index(TEMP, 0x1A))\n Store (BB1B, Index(TEMP, 0x1B))\n Store (BB1C, Index(TEMP, 0x1C))\n Store (BB1D, Index(TEMP, 0x1D))\n Store (BB1E, Index(TEMP, 0x1E))\n Store (BB1F, Index(TEMP, 0x1F))\n Return (TEMP)\n }\n end; into device label EC0 insert begin Method (WRBB, 1, Serialized)\n {\n Name (TEMP, Buffer(0x20) { })\n Store (Arg0, TEMP)\n Store (DerefOf(Index(TEMP, 0x00)), BB00)\n Store (DerefOf(Index(TEMP, 0x01)), BB01)\n Store (DerefOf(Index(TEMP, 0x02)), BB02)\n Store (DerefOf(Index(TEMP, 0x03)), BB03)\n Store (DerefOf(Index(TEMP, 0x04)), BB04)\n Store (DerefOf(Index(TEMP, 0x05)), BB05)\n Store (DerefOf(Index(TEMP, 0x06)), BB06)\n Store (DerefOf(Index(TEMP, 0x07)), BB07)\n Store (DerefOf(Index(TEMP, 0x08)), BB08)\n Store (DerefOf(Index(TEMP, 0x09)), BB09)\n Store (DerefOf(Index(TEMP, 0x0A)), BB0A)\n Store (DerefOf(Index(TEMP, 0x0B)), BB0B)\n Store (DerefOf(Index(TEMP, 0x0C)), BB0C)\n Store (DerefOf(Index(TEMP, 0x0D)), BB0D)\n Store (DerefOf(Index(TEMP, 0x0E)), BB0E)\n Store (DerefOf(Index(TEMP, 0x0F)), BB0F)\n Store (DerefOf(Index(TEMP, 0x10)), BB10)\n Store (DerefOf(Index(TEMP, 0x11)), BB11)\n Store (DerefOf(Index(TEMP, 0x12)), BB12)\n Store (DerefOf(Index(TEMP, 0x13)), BB13)\n Store (DerefOf(Index(TEMP, 0x14)), BB14)\n Store (DerefOf(Index(TEMP, 0x15)), BB15)\n Store (DerefOf(Index(TEMP, 0x16)), BB16)\n Store (DerefOf(Index(TEMP, 0x17)), BB17)\n Store (DerefOf(Index(TEMP, 0x18)), BB18)\n Store (DerefOf(Index(TEMP, 0x19)), BB19)\n Store (DerefOf(Index(TEMP, 0x1A)), BB1A)\n Store (DerefOf(Index(TEMP, 0x1B)), BB1B)\n Store (DerefOf(Index(TEMP, 0x1C)), BB1C)\n Store (DerefOf(Index(TEMP, 0x1D)), BB1D)\n Store (DerefOf(Index(TEMP, 0x1E)), BB1E)\n Store (DerefOf(Index(TEMP, 0x1F)), BB1F)\n }\n end; into device label EC0 code_regex BDA2,\s+256 replace_matched begin //BDA2, 256,\n BB00,8,BB01,8,BB02,8,BB03,8,\n BB04,8,BB05,8,BB06,8,BB07,8,\n BB08,8,BB09,8,BB0A,8,BB0B,8,\n BB0C,8,BB0D,8,BB0E,8,BB0F,8,\n BB10,8,BB11,8,BB12,8,BB13,8,\n BB14,8,BB15,8,BB16,8,BB17,8,\n BB18,8,BB19,8,BB1A,8,BB1B,8,\n BB1C,8,BB1D,8,BB1E,8,BB1F,8\n end; into method label SMBR code_regex \(BDA2, replaceall_matched begin (RDBB(), end; into method label SMBR code_regex Store\s\((.*),\sBDA2\) replaceall_matched begin WRBB(%1) end; into method label SMBW code_regex Store\s\((.*),\sBDA2\) replaceall_matched begin WRBB(%1) end; into method label ECSB code_regex Store\s\((.*),\sBDA2\) replaceall_matched begin WRBB(%1) end; into method label ECSB code_regex \(BDA2, replaceall_matched begin (RDBB(), end; # additional work for _BIX method present in some ASUS laptops into device label EC0 code_regex B0C3,\s+16 replace_matched begin XC30,8,XC31,8 end; into device label EC0 code_regex B1C3,\s+16 replace_matched begin YC30,8,YC31,8 end; into_all method label _BIX code_regex \(\^\^LPCB\.EC0\.B0C3, replaceall_matched begin (B1B2(^^LPCB.EC0.XC30,^^LPCB.EC0.XC31), end; into_all method label _BIX code_regex \(\^\^LPCB\.EC0\.B1C3, replaceall_matched begin (B1B2(^^LPCB.EC0.YC30,^^LPCB.EC0.YC31), end; # or could remove the _BIX method if it turns out not to work #into_all method label _BIX remove_entry; Path do brilho
      #Maintained by: RehabMan for: Laptop Patches #graphics_PNLF_ivy_sandy.txt # This patch enables the brightness slider in SysPrefs->Displays # and will also enable activation of sleep mode by closing # the laptop lid. # # This particular version is intended to be used with ACPIBacklight.kext # although it can also be used with AppleBacklight.kext, # provided AppleBacklight.kext is patched to recognize your # display or an injector is used to set brightness levels. # # See this thread for more information: # http://www.tonymacx86.com/hp-probook-mavericks/121031-native-brightness-working-without-blinkscreen-using-patched-applebacklight-kext.html # (also read any linked threads) # # # Note: This patch should be applied to the DSDT or SSDT that defines # your integrated graphics device (always at _ADR 0x00020000) # into_all device label PNLF remove_entry; into_all device name_adr 0x00020000 code_regex (OperationRegion\s\(RMPC,\sPCI_Config[^\}]*\}) remove_matched; into device name_adr 0x00020000 insert begin OperationRegion (RMPC, PCI_Config, 0x10, 4)\n Field (RMPC, AnyAcc, NoLock, Preserve)\n {\n BAR1,32,\n }\n Device (PNLF)\n {\n // normal PNLF declares (note some of this probably not necessary)\n Name (_ADR, Zero)\n Name (_HID, EisaId ("APP0002"))\n Name (_CID, "backlight")\n Name (_UID, 10)\n Name (_STA, 0x0B)\n //define hardware register access for brightness\n // lower nibble of BAR1 is status bits and not part of the address\n OperationRegion (BRIT, SystemMemory, And(^BAR1, Not(0xF)), 0xe1184)\n Field (BRIT, AnyAcc, Lock, Preserve)\n {\n Offset(0x48250),\n LEV2, 32,\n LEVL, 32,\n Offset(0x70040),\n P0BL, 32,\n Offset(0xc8250),\n LEVW, 32,\n LEVX, 32,\n Offset(0xe1180),\n PCHL, 32,\n }\n // DEB1 special for setting KLVX at runtime...\n //Method (DEB1, 1, NotSerialized)\n //{\n // Store(Arg0, KLVX)\n //}\n // LMAX: use 0x710 to force OS X value\n // or use any arbitrary value\n // or use 0 to capture BIOS setting\n Name (LMAX, 0x710)\n // KMAX: defines the unscaled range in the _BCL table below\n Name (KMAX, 0x710)\n // KPCH: saved value for PCHL\n Name(KPCH, 0)\n // _INI deals with differences between native setting and desired\n Method (_INI, 0, NotSerialized)\n {\n // save value of PCHL for later\n Store(PCHL, KPCH)\n // determine LMAX to use\n If (LNot(LMAX)) { Store(ShiftRight(LEVX,16), LMAX) }\n If (LNot(LMAX)) { Store(KMAX, LMAX) }\n Store(ShiftLeft(LMAX,16), KLVX)\n If (LNotEqual(LMAX, KMAX))\n {\n // Scale all the values in _BCL to the PWM max in use\n Store(0, Local0)\n While (LLess(Local0, SizeOf(_BCL)))\n {\n Store(DerefOf(Index(_BCL,Local0)), Local1)\n Divide(Multiply(Local1,LMAX), KMAX,, Local1)\n Store(Local1, Index(_BCL,Local0))\n Increment(Local0)\n }\n // Also scale XRGL and XRGH values\n Divide(Multiply(XRGL,LMAX), KMAX,, XRGL)\n Divide(Multiply(XRGH,LMAX), KMAX,, XRGH)\n }\n // adjust values to desired LMAX\n Store(ShiftRight(LEVX,16), Local1)\n If (LNotEqual(Local1, LMAX))\n {\n Store(LEVL, Local0)\n If (LOr(LNot(Local0),LNot(Local1))) { Store(LMAX, Local0) Store(LMAX, Local1) }\n Divide(Multiply(Local0,LMAX), Local1,, Local0)\n //REVIEW: wait for vblank before setting new PWM config\n //Store(P0BL, Local7)\n //While (LEqual (P0BL, Local7)) {}\n If (LGreater(LEVL, LMAX))\n { Store(KLVX, LEVX) Store(Local0, LEVL) }\n Else\n { Store(Local0, LEVL) Store(KLVX, LEVX) }\n }\n }\n // _BCM/_BQC: set/get for brightness level\n Method (_BCM, 1, NotSerialized)\n {\n // initialize for consistent backlight level before/after sleep\n If (LNotEqual(PCHL, KPCH)) { Store(KPCH, PCHL) }\n If (LNotEqual(LEVW, 0x80000000)) { Store (0x80000000, LEVW) }\n If (LNotEqual(LEVX, KLVX)) { Store (KLVX, LEVX) }\n // store new backlight level\n Store(Match(_BCL, MGE, Arg0, MTR, 0, 2), Local0)\n If (LEqual(Local0, Ones)) { Subtract(SizeOf(_BCL), 1, Local0) }\n If (LNotEqual(LEV2, 0x80000000)) { Store(0x80000000, LEV2) }\n Store(DerefOf(Index(_BCL, Local0)), LEVL)\n }\n Method (_BQC, 0, NotSerialized)\n {\n Store(Match(_BCL, MGE, LEVL, MTR, 0, 2), Local0)\n If (LEqual(Local0, Ones)) { Subtract(SizeOf(_BCL), 1, Local0) }\n Return(DerefOf(Index(_BCL, Local0)))\n }\n Method (_DOS, 1, NotSerialized)\n {\n // Note: Some systems have this defined in DSDT, so uncomment\n // the next line if that is the case.\n //External(^^_DOS, MethodObj)\n ^^_DOS(Arg0)\n }\n // extended _BCM/_BQC for setting "in between" levels\n Method (XBCM, 1, NotSerialized)\n {\n // initialize for consistent backlight level before/after sleep\n If (LNotEqual(PCHL, KPCH)) { Store(KPCH, PCHL) }\n If (LNotEqual(LEVW, 0x80000000)) { Store (0x80000000, LEVW) }\n If (LNotEqual(LEVX, KLVX)) { Store (KLVX, LEVX) }\n // store new backlight level\n If (LGreater(Arg0, XRGH)) { Store(XRGH, Arg0) }\n If (LAnd(Arg0, LLess(Arg0, XRGL))) { Store(XRGL, Arg0) }\n If (LNotEqual(LEV2, 0x80000000)) { Store(0x80000000, LEV2) } \n Store(Arg0, LEVL)\n }\n Method (XBQC, 0, NotSerialized)\n {\n Store(LEVL, Local0)\n If (LGreater(Local0, XRGH)) { Store(XRGH, Local0) }\n If (LAnd(Local0, LLess(Local0, XRGL))) { Store(XRGL, Local0) }\n Return(Local0)\n }\n // Use XOPT=1 to disable smooth transitions\n Name (XOPT, Zero)\n // XRGL/XRGH: defines the valid range\n Name (XRGL, 40)\n Name (XRGH, 1808)\n // KLVX is initialization value for LEVX\n Name (KLVX, 0x7100000)\n // _BCL: returns list of valid brightness levels\n // first two entries describe ac/battery power levels\n Name (_BCL, Package()\n {\n 1808,\n 479,\n 0,\n 53, 55, 57, 59,\n 62, 66, 71, 77,\n 83, 91, 99, 108,\n 119, 130, 142, 154,\n 168, 183, 198, 214,\n 232, 250, 269, 289,\n 309, 331, 354, 377,\n 401, 426, 453, 479,\n 507, 536, 566, 596,\n 627, 660, 693, 727,\n 762, 797, 834, 872,\n 910, 949, 990, 1031,\n 1073, 1115, 1159, 1204,\n 1249, 1296, 1343, 1391,\n 1440, 1490, 1541, 1592,\n 1645, 1698, 1753, 1808,\n })\n }\n end; Está pronto!
       
       
      Em anexo arquivos utilizados na instalação. Pelo amor de deus, sempre use versões mais novas.
       
       
      E por último mas não menos importante
       
      Eu gostaria de agradecer os seguintes membros da comunidade, por tornar esse sonho possível:
      @crushers, @snatch, @apianti, @blackosx, @blusseau, @dmazar, @slice2009, @autumnrain, @phpdev32, @EMlyDinEsH, @RehabMan, @Scellow, @mitch_de, @Shailua, @Andy Vandijck, @maxfierke, @ArturXXX, @LexHimself, @brumas e todos os outros membros envolvidos direta ou indiretamente.
      EFI antes instalação.zip
      EFI após instalação.zip
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