HK1 r2A

Transcription

1 Page Title of schematic page Rev. ate Page List lock iagram hange List SN /(HOST&PIE) SN /(R I/F) SN /(POWER) SN /(/Strap) PH /(MI/FI/VIEO) PH /(ST/RT/H/LP) PH /(PIE/US/LK/NV) PH /(GPIO/PU/STRP) PH /(POWER) PH / () R IMM-0-ST R IMM--ST WPEL & FLSH RT/LVS/MER R REER(RTS0) HMI onn/t/therml US/TP/FN LN (RTLE) WLN/HOLE H/O/EMI udio X0 LE/RF/K/PS POWER V_ORE (ISL) POWER VPU&VPU(PM) POWER.VSUS/VTT_MEM POWER.0V(UP)- POWER 0.V(PE)- POWER VG_ORE(OZ)-- POWER V./Thermal POWER(PTER IN / ONN) POWER HRGER (ISL) NVII GS- PIE&PW / NVII GS- TMS& / NVII GS- VRM / NVII GS- VRM / IO PORT LIST * : No mount E@ : For IS GFX only I@ : For INT GFX only E E

2 R III P~P ual hannel 0/ MHz R SYSTEM MEMORY intel Sandyridge rpg (.mm X.mm) PI-E X PIE GT/s HK LOK IGRM NVII NM-GS/NP-GV Package type: Gb- P ~ P VRM G / M P ~ P 0 luetooth PORT P FI MI P~P HP Jack amera P PORT WiMax P PORT US I/O P0 PORT0 US I/O P0 PORT US I/O P0 PORT US I/O P0 PORT udio OE MI Jack SPK X0 P MI P P US.0 zalia H O SPI ROM M P ST0 ST.GT/s ST Gen US H FI FI ST Gen SPI SPI ROM M MI intel <PH> MI X GT/s ougarpoint 0. mg (mm X mm) LP igfx Interfaces P~P INT_RT INT_LVS INT_HMI GT/s P PIE Giga-LN RTLE RJ Power LE P PI-Express Gen P P PIE WLN/Widi/T P T ombo : theros W WiMX : Kelsey Peak KSP(NXHWG) 0.bgn/Intel/KsP_x_Y P utton PIE ard Reader MS RTS0 S-X P P P P P Wireless Switch P Touch Pad P0 E NPEL/NPEL Sleep LE ST LE attery LE RF LE SROLE QW# VIO# SSIST# Power SW Note: HM does not support US & HM does not support ST & Keyboard P P PSLE NUMLE R LE

3 hange List from PVT to MP HK_M_SH_PVT_00 P-- R change to.k. Reason : hange thermal sensor temperature to degree. Possible Risk: No. 0 P-- R0 change to.k for UM. Reason : hange thermal sensor temperature to degree. Possible Risk: No. HK_M_SH_PVT_00 P-- KR change value from 0K to.k. P-- P change value from ulamp0 to SO-T0. Reason : for attery ES protact. Possible Risk: No. Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev hange List Wednesday, pril 0, 0 ate: Sheet of

4 .0V R () MI_TXN0 () MI_TXN () MI_TXN () MI_TXN () MI_TXP0 () MI_TXP () MI_TXP () MI_TXP () MI_RXN0 () MI_RXN () MI_RXN () MI_RXN () MI_RXP0 () MI_RXP () MI_RXP () MI_RXP () FI_TXN0 () FI_TXN () FI_TXN () FI_TXN () FI_TXN () FI_TXN () FI_TXN () FI_TXN () FI_TXP0 () FI_TXP () FI_TXP () FI_TXP () FI_TXP () FI_TXP () FI_TXP () FI_TXP () FI_FSYN0 () FI_FSYN () FI_INT () FI_LSYN0 () FI_LSYN./F_ Sandy ridge Processor (MI,PEG,FI) ep_omp TP G E F H E F 0 E G E0 G 0 F J J H0 J H F G E F U MI_RX#[0] MI_RX#[] MI_RX#[] MI_RX#[] MI_RX[0] MI_RX[] MI_RX[] MI_RX[] MI_TX#[0] MI_TX#[] MI_TX#[] MI_TX#[] G MI_TX[0] MI_TX[] F0 MI_TX[] MI_TX[] FI0_TX#[0] FI0_TX#[] FI0_TX#[] FI0_TX#[] FI_TX#[0] FI_TX#[] FI_TX#[] FI_TX#[] FI0_TX[0] FI0_TX[] FI0_TX[] FI0_TX[] FI_TX[0] FI_TX[] FI_TX[] FI_TX[] FI0_FSYN FI_FSYN FI_INT FI0_LSYN FI_LSYN MI ep_ompio ep_iompo ep_hp ep_ux ep_ux# Intel(R) FI PI EXPRESS* - GRPHIS ep ep_tx[0] ep_tx[] ep_tx[] ep_tx[] ep_tx#[0] ep_tx#[] ep_tx#[] ep_tx#[] PU-P-rPG PEG_IOMPI PEG_IOMPO PEG_ROMPO PEG_RX#[0] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[0] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX[0] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[0] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_TX#[0] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[0] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX[0] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[0] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] J J H K M L J J H H G G0 F E E J L K H H G G F F0 E E F E M M M L L K K J0 J H G E F F E M M M0 L L K0 K J J H G E F E PEG_OMP PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN0 () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN0 () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP0 () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP0 () PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN0_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN0_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP0_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP0_ R /F_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_.0V 0.uF coupling aps for PIE GEN// H_PROHOT# () E_PEI () H_PWRGOO PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN0 () PEG_TXN () PEG_TXN () PU_PLTRST# PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN0 () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP0 () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP0 () R0 () PM_SYN TP TP () H_SN_IV# /J_ SKTO# TP_TERR# H_PROHOT#_R (,) PM_THRMTRIP# R PM_RM_PWRG_R R _ R R R PU_PLTRST# Sandy ridge Processor (LK,MIS,JTG) *0_S /J_ /J_.0V N L N L N M 0.U/0V/XR_ 0K/J_ P V R U PRO_SELET# SKTO# TERR# PEI PROHOT# THERMTRIP# PM_SYN V_S MIS LOKS THERML UNOREPWRGOO SM_RMPWROK RESET# PU-P-rPG R K_ PLTRST# (0,,,,) Q N00W R MIS PWR MNGEMENT JTG & PM LK LK# PLL_REF_LK PLL_REF_LK# SM_RMRST# SM_ROMP[0] SM_ROMP[] SM_ROMP[] PRY# PREQ# TK TMS TRST# TI TO R# PM#[0] PM#[] PM#[] PM#[] PM#[] PM#[] PM#[] PM#[] R K P P R R P0 R P L T R R0 T0 P R T R LK_PU_LKP (0) LK_PU_LKN (0) R R0 PU_RMRST# () SM_ROMP_0 R SM_ROMP_ R SM_ROMP_ R XP_PREQ# R LK_PLL_SSLKP (0) LK_PLL_SSLKN (0) XP_TLK R0 _ XP_TMS R00 _ XP_TRST# R _ TP TP TP TP TP TP0 TP TP E@K_ E@K_.0V R _ 0/F_./F_ 00/F_ *_ XP_TI_R R _ XP_TO TP R *0_S.0V.0V.0V.0V XP_RST# () 0 H_PROHOT# H_PROHOT# ().V () PROHOT Q0 P/0V/NPO_ SN_IV#: - It is N when using Sandy ridge.(.0v) - For next generation processor it will be grounded in package.(.0v) FI isabling (iscrete Only) -FI_FSYN (J/J/J/H) can gang all these signals together and tie them with only one K resistor to (G V0. h..). - FI_INT connect to with K ohm. (,,,,0,,) LL_SYS_PWRG () PM_RM_PWRG V 0 U HG0 0.U/0V/XR_ R * R 00/F_ R Q *N00 0/F_ PM_RM_PWRG_R MING (,,,).Level Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. R0 *00K/F_ N00 Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev Sandy ridge / ate: Sunday, pril 0, 0 Sheet of

5 Sandy ridge Processor (R) 0.Level Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. Sandy ridge / Sunday, pril 0, 0 Huron River Size ocument Number Rev ate: Sheet of Quanta omputer Inc. PROJET : M Q0 M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M 0 M M M M M M M M M 0 M M M M M M M QSP M QSP M QSP M QSP0 M QSP M QSP M QSP M QSP M QSN M QSN0 M QSN M QSN M QSN M QSN M QSN M QSN M Q M Q M M M 0 M M M M M M M M M 0 M M M M M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q0 M QSN M QSN0 M QSN M QSN M QSN M QSN M QSN M QSN M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M QSP M QSP0 M QSP M QSP M QSP M QSP M QSP M QSP M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M LKP0 () M LKN0 () M KE0 () M KE () M LKP () M LKN () M S#0 () M S# () M OT0 () M OT () M QSN[:0] () M QSP[:0] () M [:0] () M S#0 () M S# () M S# () M S# () M RS# () M WE# () M Q[:0] () M RS# () M WE# () M S# () M S# () M S# () M S#0 () M [:0] () M QSP[:0] () M QSN[:0] () M OT () M OT0 () M S# () M S#0 () M KE () M LKN () M LKP () M KE0 () M LKN0 () M LKP0 () PU_RMRST# () R_RMRST# (,) M Q[:0] () RMRST_NTRL_PH (0) RMRST_NTRL_E ().V_SUS R SYSTEM MEMORY U PU-P-rPG R 0 E E R R0 E N N P P K K P P G F J K M N T R T T T T R T R R T 0 R R 0 G F F G G F F G J J K0 K J J0 K K M N N N M N M M M M R P N N N P P N T T P N R R R J T T H R J H T N R T T N R T T T0 E E E S_S[0] S_S[] S_S[] S_S# S_RS# S_WE# S_LK[0] S_LK[] S_LK#[0] S_LK#[] S_KE[0] S_KE[] S_OT[0] S_OT[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[0] S_QS#[0] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_M[0] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[0] S_M[] S_M[] S_M[] S_M[] S_M[] S_Q[0] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[0] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[0] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[0] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[0] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[0] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[0] S_Q[] S_Q[] S_Q[] RSV_TP[] RSV_TP[] RSV_TP[] RSV_TP[] RSV_TP[] RSV_TP[] S_S#[0] S_S#[] RSV_TP[] RSV_TP[] RSV_TP[] RSV_TP[0] 0.0U/0V_ R0 K/F_ R *0_S R *0_ R SYSTEM MEMORY U PU-P-rPG E0 F0 V E F V V0 K L H G F G K J N M L L M M R R M M 0 W W W V V W W V W V W F V V F0 F G0 G F F G G K K K J J J J K M N0 N N M0 M N M G G K K H H J J J K J K H H L L P N L M M L P N J H L K L K J H W W0 G H G H S_S[0] S_S[] S_S[] S_S# S_RS# S_WE# S_LK[0] S_LK[] S_LK#[0] S_LK#[] S_KE[0] S_KE[] S_S#[0] S_S#[] S_OT[0] S_OT[] S_QS[0] S_QS#[0] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_M[0] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[0] S_M[] S_M[] S_M[] S_M[] S_M[] S_Q[0] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[0] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[0] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[0] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[0] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[0] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[0] S_Q[] S_Q[] S_Q[] RSV_TP[] RSV_TP[] RSV_TP[] RSV_TP[] RSV_TP[] RSV_TP[] RSV_TP[] RSV_TP[] RSV_TP[] RSV_TP[0] R *0_ Q N00 R0 K/F_ R.K/F_

6 0U/V//ESR= 0U/V//ESR= P 0U/.V/.X/ESR=0/SVPE HOLE *intel-pu-bracket PU ore Power SN: 0U/V//ESR= *U/.V/XR_ 0U/.V/XR_ 0U/.V/XR_ 0U/.V/XR_ 0U/.V/XR_ 0U/.V/XR_ 0U/.V/XR_ *U/.V/XR_ *U/.V/XR_ U/.V/XR_ 0U/.V/XR_ 0U/.V/XR_ U/.V/XR_ 0U/.V/XR_ U/.V/XR_ 0U/.V/XR_ 0U/.V/XR_ 0U/.V/XR_ 0U/.V/XR_ 0U/.V/XR_ 0U/.V/XR_ 0U/.V/XR_ 0U/.V/XR_ 0U/.V/XR_ 0U/.V/XR_ 0U/.V/XR_ Sandy ridge Processor (POWER) V_ORE 0U/V//ESR= G G G G G G0 G G G G F F F F F F0 F F F F Y Y Y Y Y Y0 Y Y Y Y V V V V V V0 V V V V U U U U U U0 U U U U R R R R R R0 R R R R P P P P P P0 P P P P UF V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V00 ORE SUPPLY PU-P-rPG POWER PEG N R SENSE LINES SVI VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO0 VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO0 VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO0 VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO0 VILERT# VISLK VISOUT V_SENSE VSS_SENSE VIO_SENSE VSSIO_SENSE H H0 G0 0 Y0 U0 P0 L0 J J J J H H H G G G F F F F E E E J J J0 J J J 0 0. R H_PU_SVILRT# H_PU_SVILK H_PU_SVIT R I@0/F_ V_GFX T VXG VXG_SENSE K T I@0U/V_ VXG VSSXG_SENSE K T R I@0/F_ VXG T0 I@0U/V_ VXG.0V T VXG T 0 *I@0U/V_ VXG R *0U/V_ VXG R VXG R VXG R0 0 0U/.V/XR_ 0 I@0U/.V/XR_ VXG0 R 0U/.V/XR_ 0 I@0U/.V/XR_ VXG R 0U/.V/XR_ 0 I@0U/.V/XR_ VXG P L VR_REF_PU VR_REF_PU 0U/.V/XR_ 0 I@U/.V/XR_ VXG SM_VREF P 0U/.V/XR_ I@U/.V/XR_ VXG P Note: VR_REF_PU should 0U/.V/XR_ I@U/.V/XR_ VXG P0 0U/.V/XR_ 0 I@0U/.V/XR_ VXG have 0 mil trace width P 0 0U/.V/XR_ *I@U/.V_ VXG P 0U/.V/XR_ 0 I@U/.V/XR_ VXG N 0U/.V/XR_ I@U/.V/XR_ VXG N 0 I@0U/.V/XR_ VXG0 N U/0V/XR_ 0 *I@U/.V_ VXG N0 U/0V/XR_ VXG N 0 U/0V/XR_ VXG N () 0 U/0V/XR_ VXG M.V U/0V/XR_ R E@0_ VXG VQ F M 0 U/0V/XR_ VXG VQ F M F 0 U/0V/XR_ VXG VQ M0 *0U/V_ 0 U/0V/XR_ VXG VQ M 00 U/0V/XR_ VXG VQ M 0U/.V/XR_ U/0V/XR_ VXG0 VQ L Y 0U/.V/XR_ VXG VQ L Y 0U/.V/XR_ U/0V/XR_ VXG VQ L Y 0U/.V/XR_ U/0V/XR_ VXG VQ L0 U 0 0U/.V/XR_ U/0V/XR_ VXG VQ0 L U 0U/.V/XR_ VXG VQ L U U/0V/XR_ VXG VQ K P U/0V/XR_ VXG VQ K VXG P 0 U/0V/XR_ VQ K P U/0V/XR_ VXG VQ K0 U/0V/XR_ VXG0 K U/0V/XR_ VXG K VXG J VXG J VXG J VXG J0 VXG J *0_S VXG.0V J VXG H VXG H VXG0 SN: H VXG VS M 0.V H0 VXG VS M H VXG VS L 0U/.V/XR_ H J 0 0U/.V/XR_ VXG VS J 0U/.V/XR_ VS J *0U/.V_ VS VS H VS H R 00_ R 00_ VP_SENSE () VSSP_SENSE () V_ORE V_SENSE () VSS_SENSE () (,) MIN SMR_VREF MIN R *0_.V Q N00K (.) VR_REF_PU U/0V/XR_ 0U/.V/XR_ U/0V/XR_ R0 00K/J_ Sandy ridge Processor (GRPHI POWER) Layout note: need routing together and LERT need between LK and T H_PU_SVILK Place PU resistor close to PU H_PU_SVIT Place PU resistor close to PU H_PU_SVILRT# *0U/V_.0V R R 0/F_ *0_S R _ UG VPLL VPLL VPLL.0V R /J_ GRPHIS.V RIL PU-P-rPG R *0_S R POWER SENSE LINES S RIL R -.V RILS VREF MIS.0V.0V VS_SENSE SVI LK lose to VR R./F_ (0 ohm) SVI T lose to VR R 0/F_ (0 ohm) *0_S (0 ohm) F_ VS_VI SVI LERT H_F_ VR_SVI_LK () VR_SVI_T () VR_SVI_LERT# () R.Level Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. H VS_SEL (0) (For 0.V) VUS_SENSE (0) 0K/J_ V_GFX V_XG_SENSE () VSS_XG_SENSE () Sandy ridge / Monday, February, 0 ate: Sheet of 0 Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev

7 T T T T T T T T T T0 T T T R R R R R R0 R R R P P P P P P P P P0 P P P N0 N N N N N N N0 N N M M M M M M M0 M M M M M L L L L L L L L L0 L L L K K0 K K K K K K K0 K K J UH VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS00 VSS0 VSS0 VSS0 VSS0 VSS0 VSS0 VSS0 VSS0 VSS0 VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 Sandy ridge Processor () J J J J J0 J J J J J H H H H0 H H H H H H H H H G G G F F F F E E E E E E0 E E E E E 0 Y Y Y Y Y Y W W W W W W0 W W W W U U U U U U T T T T T T0 T T T T P P P P P P N N N N N N0 N N N N M L L0 L L L L L L L L L K K K K J J H H0 H H H H H H H0 H H H H H H H H H G G G G G G0 G G F F F UI VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS00 VSS0 VSS0 VSS0 VSS0 VSS0 VSS0 VSS0 VSS0 VSS0 VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS F F E0 E E E E E E E0 E E E E E E E E E () SMR_VREF_Q0_M () SMR_VREF_Q_M () H_SN_IV#_PWRTRL Sandy ridge Processor (RESERVE, FG) TP TP TP R R *K_ FG FG FG FG FG *0_ R *K_ K K L L K L L0 M M M0 M M N N N M K N J H J H J J UE FG[0] FG[] FG[] FG[] FG[] FG[] FG[] FG[] FG[] FG[] FG[0] FG[] FG[] FG[] FG[] FG[] FG[] FG[] VXG_VL_SENSE VSSXG_VL_SENSE V_VL_SENSE VSS_VL_SENSE RSV RSV RSV F RSV F RSV F RSV0 RSV G RSV G RSV E RSV RSV 0 RSV RSV 0 RSV RSV 0 RSV0 RSV 0 RSV RSV J0 RSV RSV VIO_SEL RSV PU-P-rPG RESERVE RSV L RSV G RSV0 E RSV K RSV W RSV T RSV M RSV J RSV T RSV J RSV H RSV0 G RSV R RSV T RSV T RSV P RSV R RSV RSV RSV RSV RSV0 RSV RSV V_IE_SENSE RSV RSV RSV RSV RSV KEY J K H N M T T R V R 00K/F_ SHN# (,,,) R /J_ 0 IMVP_PWRG (,,) PU-P-rPG Processor Strapping PU-P-rPG FG FG FG The FG signals have a default value of '' if not terminated on the board. R0 R0 R K/F_ *K/F_ *K/F_ (,) PM_THRMTRIP# R 0/F_ Q MMT0 0.U_ Q N00W *000P_ FG (PEG Static Lane Reversal) FG (P Presence Strap) FG (PEG efer Training) Normal Operation PEG train immediately following xxreset de assertion 0 isable; No physical P attached to ep Lane Reversed Enable; n ext P device is connected to ep PEG wait for IOS training FG FG FG[:] (PIE Port ifurcation Straps) : (efault) x - X PEG interface 0: PEG x x bifurcation enableddisabled 0: Reserved - (evice function disabled ; function enabled) 00: x,x,x - evice functions and enabled R R *K/F_ *K/F_.Level Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev Sandy ridge / ate: Monday, February, 0 Sheet of

8 R.0V R SUS_PWR_K R R () SUSK# () XP_RST# R (,,) IMVP_PWRG R () PH_PWROK_E (,,,,0,,) LL_SYS_PWRG () PM_RM_PWRG () RSMRST# () SUS_PWR_K () E_PWRTN# () _PRESENT U () MI_RXN0 MI0RXN () MI_RXN E0 MIRXN () MI_RXN G MIRXN () MI_RXN G0 MIRXN () MI_RXP0 E MI0RXP () MI_RXP 0 MIRXP () MI_RXP J MIRXP () MI_RXP J0 MIRXP () MI_TXN0 W MI0TXN () MI_TXN W0 MITXN () MI_TXN MITXN () MI_TXN V MITXN () MI_TXP0 Y MI0TXP () MI_TXP Y0 MITXP () MI_TXP Y MITXP () MI_TXP U MITXP J MI_ZOMP./F_ MI_OMP G MI_IROMP 0/F_ MIRIS H MIRIS *0_S *0_ SUSK#_R SUSK# XP_RST# K SYS_RESET# /J_ SYS_PWROK P 000P/0V/XR/0%_ SYS_PWROK PWROK_R L PWROK R *0_S *0_S L0 R *0_ PWROK PM_RM_PWRG RSMRST# SUS_PWR_K K E0 ougar Point (MI,FI,PM) RMPWROK RSMRST# MI FI System Power Management V V_S V_S V_S PWRTN# SLP_# G0 T _PRESENT H0 SW SLP_SUS# G SLP_SUS# () PRESENT / GPIO PM_TLOW# E0 V_S PMSYNH P PM_SYN () TLOW# / GPIO FI_RXN0 J FI_TXN0 () FI_RXN Y FI_TXN () FI_RXN E FI_TXN () FI_RXN H FI_TXN () FI_RXN FI_TXN () FI_RXN J FI_TXN () FI_RXN G0 FI_TXN () FI_RXN G FI_TXN () FI_RXP0 G FI_TXP0 () FI_RXP FI_TXP () FI_RXP F FI_TXP () FI_RXP G FI_TXP () FI_RXP E FI_TXP () FI_RXP G FI_TXP () FI_RXP J0 FI_TXP () FI_RXP H FI_TXP () FI_INT FI_INT W FI_INT () V FI_FSYN0 FI_FSYN0 FI_FSYN0 () 0 FI_FSYN FI_FSYN FI_FSYN () V FI_LSYN0 FI_LSYN0 FI_LSYN0 () 0 FI_LSYN FI_LSYN FI_LSYN () SWVRMEN PWROK WKE# LKRUN# / GPIO SUS_STT# / GPIO SUSLK / GPIO SWVREN E PWROK R PIE_WKE# N LKRUN# G T N R *0_S T SLP_S# / GPIO 0 T SLP_S# H V RSMRST# PIE_WKE# () PH_SUSLK () SLP_S# () SLP_S# () T SUSWRN#/SUSPWRNK/GPIO0 V_S SLP_S# F SLP_S# () *0_S R.K_ INT_EILK R0.K_ INT_EIT () INT_LVS_LON () INT_LVS_VEN () INT_LVS_RIGHT INT_EILK () INT_EILK INT_EIT () INT_EIT V R.K_ R.K_ R I@.K/F_ LVS_IG T INT_TXLLKOUTN () INT_TXLLKOUTN INT_TXLLKOUTP () INT_TXLLKOUTP INT_TXLOUTN0 () INT_TXLOUTN0 INT_TXLOUTN () INT_TXLOUTN INT_TXLOUTN () INT_TXLOUTN INT_TXLOUTP0 () INT_TXLOUTP0 INT_TXLOUTP () INT_TXLOUTP INT_TXLOUTP () INT_TXLOUTP INT_RT_LU () INT_RT_LU INT_RT_GRE () INT_RT_GRE INT_RT_RE () INT_RT_RE () INT_LK () INT_T () INT_RT_HSYN () INT_RT_VSYN _IREF R0 K/F_ ougar Point (LVS,I) U J L_KLTEN M L_V_EN P L_KLTTL T0 L LK K L T T L_TRL_LK P L_TRL_T F LV_IG F LV_VG E LV_VREFH E LV_VREFL K LVS_LK# K0 LVS_LK N LVS_T#0 M LVS_T# K LVS_T# J LVS_T# N LVS_T0 M LVS_T K LVS_T J LVS_T F0 LVS_LK# F LVS_LK H LVS_T#0 H LVS_T# F LVS_T# F LVS_T# H LVS_T0 H LVS_T F LVS_T F LVS_T N RT_LUE P RT_GREEN T RT_RE T RT LK M0 RT T M RT_HSYN M RT_VSYN T _IREF T RT_IRTN ougarpoint_rp0 LVS igital isplay Interface RT SVO_TVLKINN P SVO_TVLKINP P SVO_STLLN M SVO_STLLP M0 SVO_INTN P SVO_INTP P0 SVO_TRLLK P INT_HMI_SL () SVO_TRLT M INT_HMI_S () P_UXN T P_UXP T P_HP T0 INT_HMI_HP_Q () V INT_HMI_TXN_ I@0.U/0V/XR_ P_0N V0 INT_HMI_TXP_ I@0.U/0V/XR_ P_0P V INT_HMI_TXN_ I@0.U/0V/XR_ P_N V INT_HMI_TXP_ I@0.U/0V/XR_ P_P UINT_HMI_TXN0_ I@0.U/0V/XR_ P_N UINT_HMI_TXP0_ I@0.U/0V/XR_ P_P V INT_HMI_TXN_ I@0.U/0V/XR_ P_N V INT_HMI_TXP_ I@0.U/0V/XR_ P_P P_TRLLK P P_TRLT P P_UXN P P_UXP P P_HP T P_0N Y P_0P Y P_N Y P_P Y P_N P_P P_N P_P P_TRLLK M P_TRLT M P_UXN T P_UXP T P_HP H P_0N P_0P P_N F P_P E P_N F P_P E P_N J P_P G 0 INT_HMI_TXN (,) INT_HMI_TXP (,) INT_HMI_TXN (,) INT_HMI_TXP (,) INT_HMI_TXN0 (,) INT_HMI_TXP0 (,) INT_HMI_TXN (,) INT_HMI_TXP (,) INT. P INT. HMI PM_RI# 0 RI# V_S SLP_LN# / GPIO K R0 *0K/J_ V_S R place close to PH ougarpoint_rp0 R0 I@0/F_ INT_RT_LU R R00 I@0/F_ INT_RT_GRE I@0/F_ INT_RT_RE PH Pull-high/low(LG) V V_S LKRUN# R.K/J_ PM_RI# R 0K/J_ XP_RST# R 0K/J_ PM_TLOW# R.K/J_ R *K_ PIE_WKE# R 0K/J_ RSMRST# R0 K_ PWROK_R R0 K_ SUS_PWR_K R 0K/J PRESENT R *0K/J_ PM_RM_PWRG R 00/F_ V_S V_RT R 0K/J_ SWVREN R *0K/J_ On ie SW VR Enable High = Enable (efault) Low = isable V_S *0.U/0V/XR_ R */J_ (,,) IMVP_PWRG () PH_PWROK_E FI_INT R E@K_ FI_FSYN0 R E@K_ FI_FSYN R E@K_ FI_LSYN0 R E@K_ FI_LSYN R E@K_ U *TSH0FU SYS_PWROK VPU R M_ V_S () SUSG Q N00W V_S.Level Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev ougar Point / Sunday, pril 0, 0 ate: Sheet of

9 RT ircuitry(rt) VPU PH SPI (LG) PH Strap Table Pin Name SPKR 0mils V_RT_ R K/J_ 0MIL PH_SPI_SO GNT# / GPIO SW00PT S0 0MIL ON -T-0-K0 V_SPI (,) VPG () Z_SYN PH_SPI_S0# R0 *0_S R.K_ V R 0mils MXL0MI-G: KEFP0Z00 WXVSSIG: KEZP0N00 R V_RT () F_S0#_PH () F_SI_PH () SK_PH () S0_PH U/0V/XR_ /J_ R R Strap description No reboot mode setting Top-lock Swap Override R R R R R 0K/J_ 0K/J_ 0.U/0V/XR_ U /S V O /HOL /WP LK I WXVSSIG K/J_ U/0V/XR_ 0 U/.V_ Q N00 *0_ V_SPI R R R R R *0_S PH_SPI_S0# *0_S PH_SPI_SO *0_S PH_SPI_LK *0_S PH_SPI_SI For NPEL Using *P_ Z_SYN_R Sampled PWROK PWROK J RT_RST# *SHORT_ P J SRT_RST# *SHORT_ P *0_S *0_ V_S V.K_ V_SPI *0_S PH_SPI_LK *0_S PH_SPI_SI onfiguration P/0V_ P/0V_ 0 = efault (weak pull-down 0K) = Setting to No-Reboot mode 0 = "top-block swap" mode = efault (weak pull-up 0K) () Z_ITLK () Z_RST# () Z_SOUT () Z_SOUT_R Y.KHZ V_RT R R () SPKR R () Z_SIN0 R TP V R 0M/J_ M/J_ /J_ /J_ /J_ HK/HK note R0 R0 RT_X RT_X RT_RST# SRT_RST# SM_INTRUER# PH_INVRMEN Z_ITLK_R Z_SYN_R SPKR Z_RST#_R Z_SOUT_R PH_JTG_TK_R PH_JTG_TMS_R PH_JTG_TI_R PH_SPI_LK PH_SPI_S0# PH_SPI_SI PH_SPI_SO *K_ *K_ TP TP TP SPKR ougar Point (H,JTG,ST) G K N L T0 K E G U PI_GNT# (0) ougarpoint_rp0 RT IH JTG SPI ST LP ST G H_OK_EN# / GPIO V N H_OK_RST# / GPIO V_S J H K H T Y T V U RTX RTX RTRST# SRTRST# INTRUER# INTVRMEN H_LK H_SYN SPKR H_RST# H_SIN0 H_SIN H_SIN H_SIN H_SO JTG_TK JTG_TMS JTG_TI JTG_TO SPI_LK SPI_S0# SPI_S# SPI_MOSI SPI_MISO STLE# P V ST0GP / GPIO V V STGP / GPIO P FWH0 / L0 FWH / L FWH / L FWH / L FWH / LFRME# LRQ0# E V LRQ# / GPIO K SERIRQ ST0RXN ST0RXP ST0TXN ST0TXP STRXN STRXP STTXN STTXP STRXN STRXP STTXN STTXP STRXN STRXP STTXN STTXP STRXN STRXP STTXN STTXP STRXN STRXP STTXN STTXP STIOMPO STIOMPI STROMPO V M M P P M0 M P P0 H H 0 F F Y Y Y Y Y Y0 H PH_RQ#0 PH_RQ# SERIRQ ST_TXN0_ ST_TXP0_ ST_TXN_ ST_TXP_ ST_OMP ST_RIS R0 GPIO S_IT0 0 0 R0 ST_OMP R STOMPI STRIS TP TP SERIRQ GPIO LP_0 (,) LP_ (,) LP_ (,) LP_ (,) LP_FRME# (,) SERIRQ () 0.0U/V_ 0.0U/V_ 0.0U/V_ 0.0U/V_./F_./F_ 0/F_ ST_T# () R R0 ST_RXN0 () ST_RXP0 () ST_TXN0 () ST_TXP0 () ST H/SS RI.0V.K/J_ 0K_ V ST_RXN () ST_RXP () ST_TXN () ST_TXP () ST O 0 INTVRMEN Integrated.0V VRM enable LWYS Should be always pull-up V_RT R 0K/J_ PH_INVRMEN PH JTG ebug (LG) GNT# / GPIO oot IOS Selection [bit-] PWROK GNT# GNT0# oot Location efault weak pull-up on GNT0/# [Need external pull-down for LP IOS] V_S GPIO H_SO F_TVS oot IOS Selection 0 [bit-0] Flash escriptor Security MI/FI Termination voltage PWROK PWROK PWROK SPI 0 0 LP 0 = efault (weak pull-down 0K) = Enabled 0 = Set to Vss = Set to Vcc (weak pull-down 0K) * V R R R0 R0 R0 *K_ *K_ *K_.K_ K_ S_IT (0) S_IT0 Z_SOUT_R.V NV_LE () H_SN_IV# () R /J_ R 0/F_ R 00/F_ R 0/F_ PH_JTG_TMS_R PH_JTG_TI_R PH_JTG_TK_R R 00/F_ GPIO H_SYN On-die PLL Voltage Regulator On-ie PLL VR Voltage Select RSMRST# RSMRST 0 = isable = Enable (efault) 0 = Support by.v (weak pull-down) = Support by.v R V_S R *K_ K_ PLL_OVR_EN () Z_SYN_R.Level Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev ougar Point / ate: Sunday, pril 0, 0 Sheet of

10 () () LK_PI_LP LK_PI_E LK_PI_F 0 () () S_IT PI_GNT# R R TP *P/0V/NPO_ R /J_ /J_ /J_ PI_PIRQ# PI_PIRQ# PI_PIRQ# PI_PIRQ# TP PI_GNT# MP_PWR_TRL# PIRQF# EXTTS_SNI_RV0_PH EXTTS_SNI_RV_PH PI_PME# PI_PLTRST# LK_PI_F_R LK_PI_LP_R LK_PI_E_R ougar Point-M (PI,US,NVRM) G J H J G H H K K N0 H H M M Y K L M0 Y G E 0 E J E0 F G V U Y0 U Y V W0 K0 K H G E0 E F G G0 K0 H H J K H0 UE TP TP TP TP TP TP TP TP TP TP0 TP TP TP TP TP TP TP TP TP TP0 TP TP TP TP TP TP TP TP TP TP0 TP TP TP TP TP TP TP TP TP TP0 RSV PIRQ# PIRQ# PIRQ# PIRQ# REQ# / GPIO0 V REQ# / GPIO V REQ# / GPIO V GNT# / GPIO V GNT# / GPIO V GNT# / GPIO V PI PIRQE# / GPIO V PIRQF# / GPIO V PIRQG# / GPIO V PIRQH# / GPIO V PME# PLTRST# LKOUT_PI0 LKOUT_PI LKOUT_PI LKOUT_PI LKOUT_PI ougarpoint_rp0 US V_S V_S V_S V_S V_S V_S V_S V_S RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV0 RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV0 RSV RSV RSV RSV RSV RSV RSV RSV RSV USP0N USP0P USPN USPP USPN USPP USPN USPP USPN USPP USPN USPP USPN USPP USPN USPP USPN USPP USPN USPP USP0N USP0P USPN USPP USPN USPP USPN USPP USRIS# USRIS O0# / GPIO O# / GPIO0 O# / GPIO O# / GPIO O# / GPIO O# / GPIO O# / GPIO0 O# / GPIO Y V U G T0 U T T T Y T V V E F V V0 T Y T F K H E N M L0 K0 G0 E0 0 0 L K G E K0 L NV_LE US0 US US US Ports / disable in sku. US_IS US_O0# US_O# US_O# US_O# US_O# US_O# US_O# US_O# O O0# O# O# O# O# O# O# O# USP0- (0) USP0 (0) USP- (0) USP (0) USP- (0) USP (0) USP- (0) USP (0) USP- () USP () amera USP- () USP () WiMX USP- () USP () luetooth R TP US Port 0,,,,, 0,, GPIO US./F_ US_O0# (0) US_O# (0) US_O# (0) US_O# (0) ougar Point-M (PI-E,SMUS,LK) U () PIE_RXN G PERN V_S SMLERT# () PIE_RXP J E WLN 0 0.U/0V/XR_ PIE_TXN_ PERP SMLERT# / GPIO () PIE_TXN V 0.U/0V/XR_ PIE_TXP_ PETN SM_PH_LK () PIE_TXP U H PETP SMLK E SM_PH_T PERN SMT F PERP M PETN Y PETP V_S RMRST_NTRL_PH SML0LERT# / GPIO0 RMRST_NTRL_PH () G PERN J SM_ME0_LK PERP SML0LK US.0 V PETN For LN U G SM_ME0_T PETP SML0T () PIE_RXN_R F PERN () PIE_RXP_R E ard 0.U/0V/XR_ PIE_TXN_LN_ PERP V_S SMLLERT#_R () PIE_TXN_R Y 0.U/0V/XR_ PIE_TXP_LN_ PETN SMLLERT# / PHHOT# / GPIO () PIE_TXP_R PETP V_S E SM_ME_LK SMLLK / GPIO G PERN V_S For E Express R H M SM_ME_T PERP SMLT / GPIO Y PETN PETP () PIE_RXN_LN J PERN () PIE_RXP_LN G LN 0 0.U/0V/XR_ PIE_TXN_LN_ PERP () PIE_TXN_LN U M 0.U/0V/XR_ PIE_TXP_LN_ PETN L_LK () PIE_TXP_LN V PETP G0 T PERN L_T J0 PERP Y0 PETN 0 P0 PETP L_RST# E PERN PERP W PETN Y PETP V_S M0 PIE_LKREQ_PEG# PEG LKRQ# / GPIO PIE_LKREQ_PEG# () () LK_PIE_WLNN Y0 LKOUT_PIE0N () LK_PIE_WLNP Y LKOUT_PIE0P WLN LK_PIE_VGN LK_PIE_VGN () PIE_LKREQ_WLN# LKOUT_PEG N V_S LK_PIE_VGP () PIE_LKREQ_WLN# J PIELKRQ0# / GPIO LKOUT_PEG P LK_PIE_VGP () V LKOUT_PIEN LKOUT_MI_N LK_PU_LKN () U LKOUT_PIEP LKOUT_MI_P LK_PU_LKP () EHI PIE_LKREQ_M# M V RP I@0X PIELKRQ# / GPIO M LK_PLL_SSLKN_R LKOUT_P_N LK_PLL_SSLKN () M LK_PLL_SSLKP_R LKOUT_P_P LK_PLL_SSLKP () LKOUT_PIEN US.0 LKOUT_PIEP F LK_UF_PIE_GPLLN R 0K/J_ PIE_LKREQ_US# LKIN_MI_N V0 V E LK_UF_PIE_GPLLP R 0K/J_ PIELKRQ# / GPIO0 LKIN_MI_P LK_UF_LKN R 0K/J_ () LK_PIE_RN Y J0 LKOUT_PIEN LKIN N ard LK_UF_LKP R 0K/J_ () LK_PIE_RP Y G0 LKOUT_PIEP LKIN P PIE_REQ_R# () PIE_REQ_R# PIELKRQ# / GPIO V_S G LK_UF_REFLKN R 0K/J_ LKIN_OT_N EHI E LK_UF_REFLKP R 0K/J_ LKIN_OT_P Y LKOUT_PIEN Y LKOUT_PIEP K LK_UF_REFSSLKN R 0K/J_ PIE_LKREQ# LKIN_ST_N L V_S K LK_UF_REFSSLKP R 0K/J_ PIELKRQ# / GPIO LKIN_ST_P V K LK_PH_M R 0K/J_ LKOUT_PIEN REFLKIN Express R V LKOUT_PIEP PIE_LKREQ_EXPRESSR# L V_S H LK_PI_F 0 P_ PIELKRQ# / GPIO LKIN_PILOOPK V XTL_IN Y LKOUT_PEG N XTL_IN 0 V XTL_OUT R Y ann't create nd by LKOUT_PEG P XTL_OUT MHz/0ppm/PF M/J_ TX LK_PEG_REQ# E PEG LKRQ# / GPIO V_S P_ Y XLK_ROMP R 0./F_ XLK_ROMP.0V () LK_PIE_LNN V0 LKOUT_PIEN () LK_PIE_LNP V LKOUT_PIEP LN PIE_LKREQ_LN# () PIE_LKREQ_LN# T PIELKRQ# / GPIO V_S V V K LKOUT_PIEN LKOUTFLEX0 / GPIO V LKOUT_PIEP V F TP LK_PIE_REQ# LKOUTFLEX / GPIO K PIELKRQ# / GPIO V_S V H LKOUTFLEX / GPIO K LKOUT_ITPXP_N K V K TP LKOUT_ITPXP_P LKOUTFLEX / GPIO ougarpoint_rp0 PI-E* LOKS SMUS ontroller Link FLEX LOKS 0 PLTRST#(LG) PI_PLTRST# R0 00K/J_ V_S E@0.U/0V/XR_ PLTRST_IS# () U E@TSH0FU R0 E@00K/J_ R *0_S PLTRST# (,,,,) *0.U/0V/XR_ PI/USO# Pull-up(LG) V_S R 0 US_O# US_O# US_O# US_O# US_O# US_O# US_O# US_O0# 0KX V PI_PIRQ# R.K/J_ PI_PIRQ# R.K/J_ PI_PIRQ# R.K/J_ PI_PIRQ# R.K/J_ PIRQF# R 0K/J_ EXTTS_SNI_RV0_PH R 0K/J_ EXTTS_SNI_RV_PH R 0K/J_ MP Switch ontrol Low = MP ON MP_PWR_TRL# High = MP OFF (efault) LK_REQ/Strap Pin(LG) SMus/Pull-up(LG) Q V_S V_S R0.K_ V_S R 0K/J_ PIE_LKREQ_WLN# SM_ME_LK (,,) MLK R 0K/J_ PIE_REQ_R# R 0K/J_ PIE_LKREQ# LK_PIE_WLNN *0P_ R 0K/J_ PIE_LKREQ_EXPRESSR# V_S R.K_ V_S R 0K/J_ LK_PEG_REQ# R 0K/J_ PIE_LKREQ_LN# SM_ME_T LK_PIE_WLNP (,,) MT *0P_ R 0K/J_ LK_PIE_REQ# V N00W R0 0K/J_ PIE_LKREQ_M# R 0K/J_ PIE_LKREQ_US# Q V R0.K/J_ V V_S R.K_ SM_PH_LK V_S SM_RUN_LK (,) R I@0K/J_ PIE_LKREQ_PEG# R *0K_ R.K/J_ V V R0.K_ SM_PH_T SM_RUN_T (,) MP_PWR_TRL# R R *K_ 0K/J_ V V_S N00W R K/J_ RMRST_NTRL_PH R R R R 0K/J_ SMLERT#.K_ SM_ME0_LK.K_ SM_ME0_T 0K/J_ SMLLERT#_R Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev ougar Point /.Level Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. Tuesday, pril 0, 0 ate: Sheet of 0

11 UF R *0_ V R K/F_ S_GPIO T MUSY# / GPIO0 ougar Point (GPIO,VSS_NTF,RSV) V V V V () E_EXT_SMI# E_EXT_SMI# TH / GPIO OR_I H TH / GPIO () E_EXT_SI# E_EXT_SI# E TH / GPIO V_S R 0K/J_ 0 GPIO V_S LN_ISLE# LN_PHY_PWR_TRL / GPIO HOST_LERT#_R G GPIOV_S OR_I0 U STGP / GPIOV OR_I 0 TH0 / GPIO V IOS_RE T SLOK / GPIO V TP E GPIO / MEM_LEV_S GPIO E GPIO SW () PLL_OVR_EN P GPIO V_S Need heck STP_PI# K STP_PI# / GPIO V OR_I K GPIOV GPIO V STGP / GPIOV FI_OVRVLTG M STGP / GPIOV MFG_MOE N SLO / GPIO V GPU_PRSNT# M STOUT0 / GPIO V TEST_SET_UP V STOUT / GPIO V () RIT_TEMP_REP# R0 *0_S V STGP / GPIO V SV_ET GPIOV_S VSS_NTF_ GPIO V V V V V_S PU/MIS TH / GPIO 0 TH / GPIO R.K/F_ TH / GPIO0 R.K/F_ V TH / GPIO 0 R.K/F_ 0GTE P E_0GTE () PEI U RIN# P E_RIN# E_RIN# () PROPWRG Y H_PWRGOO () THRMTRIP# Y0 PH_THRMTRIP# R 0/J_ PM_THRMTRIP# (,) INIT_V# T R *0K_.0V F_TVS Y R *0_S NV_LE () TS_VSS H TS_VSS K TS_VSS H0 TS_VSS K0 N_ P VSS_NTF_ G VSS_NTF_ G VSS_NTF_ H VSS_NTF_ H VSS_NTF_ J V R oard I0 (NM/NP) R R GPIO Pull-up/Pull-down(LG) LN_ISLE# E_EXT_SMI# E_EXT_SI# STP_PI# E_0GTE E_RIN# RIT_TEMP_REP# GPIO *0K_ NM Stuff SV_ET No Stuff R R R R R R R0 R R NP No Stuff Stuff 0K/J_ 0K/J_ 0K/J_ *0K_ 0K/J_ 0K/J_ 0K/J_ 0K_ V_S 00K/J_ V VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ NTF VSS_NTF_0 VSS_NTF_ VSS_NTF_ VSS_NTF_ J J J J oard I (VRM Vendor) R Samaung Stuff Hynix No Stuff VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_0 VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ J SV_SET_UP R oard I (VRM G/M) R No Stuff G Stuff Stuff M No Stuff E E F F VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_0 VSS_NTF_ VSS_NTF_ E E F F High = Strong (efault) TEST_SET_UP R0 0K/J_ R *0_ V R No Stuff Stuff R *0K/J_ OR_I0 R *0K_ R *0K/J_ OR_I R *0K_ R *0K/J_ OR_I R *0K/J_ R 0K/J_ OR_I R *0K/J_ V ougarpoint_rp0 V_S P SKU iscrete UM HOST_LERT#_R R K/J_ R Stuff No Stuff V V V Intel ME rypto Transport Layer Security (TLS) cipher suite Low = isable (efault) High = Enable V R R No Stuff E@0K/J_GPU_PRSNT# R Stuff *I@00K/J_ R FI TERMINTION VOLTGE OVERRIE 00K/J_ FI_OVRVLTG R *K/F_ GPIO R *00K/F_ IOS_RE LOW - Tx, Rx terminated to same voltage MI TERMINTION VOLTGE OVERRIE Low = Tx, Rx terminated to same voltage ( oupling Mode) (EFULT) R0 R IOS REOVERY 0K/J_ *0_ High = isable (efault) Low = Enable MFG-TEST MFG_MOE R R 0K/J_ *0_.Level Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. V Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev ougar Point / ate: Tuesday, pril 0, 0 Sheet of

12 .0V PH(LG) VccORE =. (0mils) (VccIO =. (0mils)) V 0 0 VFI_VRM.V 0U/.V/XR_ U/0V/XR_ U/0V/XR_ U/0V/XR_ TP.0V.0V U/0V/XR_ U/0V/XR_ U/0V/XR_ U/0V/XR_ 0U/.V/XR_ 0.U/0V/XR_ R VFI_VRM TP0.0V.0V VFI_VRM *0_S F F G G G G G G J J J J J N J N N N N N P P P P T N N H P G P U0 OUGR POINT (POWER) UG POWER VORE[] VORE[] VORE[] VORE[] VORE[] VORE[] VORE[] VORE[] VORE[] VORE[0] VORE[] VORE[] VORE[] VORE[] VORE[] VORE[] VORE[] VIO[] VPLLEXP VIO[] VIO[] VIO[] VIO[] VIO[] VIO[0] VIO[] VIO[] VIO[] VIO[] VIO[] VIO[] V_[] VVRM[] VccFIPLL VIO[] VMI[] ougarpoint_rp0 V ORE VIO FI RT LVS FT / SPI MI HVMOS V VSS VLVS VSSLVS VTX_LVS[] VTX_LVS[] VTX_LVS[] VTX_LVS[] V_[] V_[] VVRM[] VMI[] VLKMI VFTERM[] VFTERM[] VFTERM[] VFTERM[] VSPI VVRM:.V (estop) 0/0 del for Pre-ES.V (Mobile) U U K K M M P P V V T T0 G G J J m(mils) V_V L m(mils) VSPI = 0m(mils) V V_VLVS 0m(0mils).V_VTX_LVS 0 0 V VFI_VRM VFI_VRM VMI = m(0mils) VLKMI = 0m(mils) U/0V/XR_ *0U/.V_ U/0V/XR_.0V VPNN = 0 m(mils).v V_SPI 0U/.V/XR_ 0.U/0V/XR_ 0.0U/V_ R 0ohm/_ I@0.U/0V/XR_/E@0_ R0 U/0V/XR_ I@0_ I@0_ I@0U/.V/XR_ I@0.0U/V_ I@0.0U/V_/E@0_ 0.U/0V/XR_ U/0V/XR_ 0.U/0V/XR_ V.V V.0V V_S V m(0mils).0v m(mils).0v VIFFLKN= m(0mils) VSS= m(0mils) R0 L L.0V.0V.0V *0_S R R0.0V VSW_= m.0v VFI_VRM 0uH/00m 0uH/00m *0_S *0_S R VPLL_PY VSUS VccSW =.0 (0mils) U/0V/XR_ U/0V/XR_ U/0V/XR_ VFI_VRM.0V_V PL 0 U/.V/XR_ U/0V/XR_ 0U/.V/XR_.0V_V PL U/.V/XR_ U/0V/XR_ 0U/.V/XR_ 0.U/0V/XR_ *0.U/0V_ 0U/.V/XR_ U/0V/XR_ *0_S *U/0V/XR_ 0U/.V/XR_ 0U/.V/XR_ 0.U/0V/XR_ TP.0V_VIFFLKN U/0V/XR_ V.0V_SSV U/0V/XR_ PH_VSW V_SUS_LKF TP0 U/0V/XR_ VRTEXT ougar Point-M (POWER) T V T H L L W W W W W W W N Y F F F F G G UJ VLK VSW_ PSUSYP V_[] VPLLMI VIO[] PSUS[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[0] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[0] PRT VVRM[] VPLL VPLL VIO[] VIFFLKN[] VIFFLKN[] VIFFLKN[] VSS POWER lock and Miscellaneous ST PI/GPIO/LP US VIO[] VIO[0] VIO[] VIO[] VIO[] VSUS_[] VSUS_[] VSUS_[] VSUS_[0] VSUS_[] VIO[] VREF_SUS PSUS[] VSUS_[] VREF VSUS_[] VSUS_[] VSUS_[] VSUS_[] V_[] V_[] V_[] V_[] VIO[] VIO[] VIO[] VIO[] VPLLST VVRM[] VIO[] VIO[] VIO[] N P P T T T T V V P T M N N P N0 N P0 P W T J F H H F K F.0V 0 U/0V/XR_ VSUS_ = m(mils) V_S 0.U/0V/XR_ 0.U/0V/XR_.0V VREFSUS=m V_S_PH_VREFSUS R 0/F_ V_S R00V-0 V_S V_USSUS 0 *U/0V/XR_ 0.U/0V/XR_ V_S V_PH_VREF R 0/F_ V VREF= m R00V-0 V U/0V/XR_ V_S U/0V/XR_ VSUS_ = m(mils) 0.U/0V/XR_ V VPORE = m(0mils) V 0.U/0V/XR_ V 0 0.U/0V/XR_.0V U/0V/XR_ TP VFI_VRM VVRM= m(mils).0v 0 U/0V/XR_ 0.U/0V/XR_ VSST V PSST m(mils).0v.0v_vsus *U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_.U/.V_ T V J PSUS[] PSUS[] V_PRO_IO PU MIS VSW[] VSW[] VSW[] T V T.0V VME =.0(0mils) VRT<m(mils) V_RT 0.U/0V/XR_ 0.U/0V/XR_ U/0V/XR_ VRT ougarpoint_rp0 RT H VSUSH P 0 V_S VSUSH= 0m(mils) 0.U/0V/XR_ *U/0V/XR_.Level Environment-related Substances Should Never be Used. Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev ougar Point /.Recycled Resin and oated Wire should be procured from Green Partners. Tuesday, pril 0, 0 ate: Sheet of

13 IEX PEK-M () PH(LG).Level Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. ougar Point / Monday, February, 0 Huron River Size ocument Number Rev ate: Sheet of Quanta omputer Inc. PROJET : UI ougarpoint_rp0 Y Y Y Y E E E0 F0 F F F0 F F F F F0 F F0 F G G G G G H H H H H H H H H H H 0 K L L L0 L L L L M P M M M M0 M M M M M M M N P0 P P T P0 P P P R R T T T T W T T T V V V V V V V V V V W W E E G G0 G G G G H H W W W Y Y Y Y Y Y G N J N H H H H0 H H F K K H K K E0 G G H T G G P F H0 M P P E G J VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[00] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[00] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] UH ougarpoint_rp0 0 0 F0 F F F F F F F F F F F F F F G G G G H H H H H0 H H H J J J K K K K K K K L L L L L L L L L L M M M M M M M N N N N P P P P0 P P P P P R R T T T T T T T0 T T T T U U0 V V0 V V0 V V V V W W W W W W W W W W0 W V Y Y Y E P H F J J E T T M L L VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[00] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[0] VSS[] VSS[]

14 . VREF Q0 M Solution Place these aps near So-imm0. 0/ Remove 0ohm to RUV Type RUV Type.Level Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. RIII SO-IMM-0 Tuesday, pril 0, 0 Huron River Size ocument Number Rev ate: Sheet of Quanta omputer Inc. PROJET : M 0 M M M M M M 0 M M M M M M M M M SM_RUN_LK SM_RUN_T M QSP0 M QSP M QSP M QSP M QSP M QSP M QSP M QSP M QSN0 M QSN M QSN M QSN M QSN M QSN M QSN M QSN M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q SMR_VREF_Q0_M SMR_VREF_Q0_M IMM0_S0 IMM0_S PM_EXTTS#0 SMR_VREF_Q0 SMR_VREF_IMM SMR_VREF_IMM SMR_VREF_Q0 SMR_VREF_Q0_M () R_RMRST# (,) M [:0] () M S#0 () M S# () M S# () M S#0 () M S# () M LKP0 () M LKN0 () M LKP () M LKN () M KE0 () M KE () M S# () M RS# () M WE# () SM_RUN_LK (0,) SM_RUN_T (0,) M QSP[:0] () M QSN[:0] () M OT0 () M OT () M Q[:0] () PM_EXTTS#0 (,).V_SUS V 0.V_R_VTT V SMR_VREF.V_SUS SMR_VREF.V_SUS V 0.V_R_VTT SMR_VREF_IMM.V_SUS 0U/.V/XR_ R *0_S 0.U/0V/XR_ 0 *0U/.V_ R0 0K/J_ R 0K/J_ 0U/.V/XR_ 0.U/0V/XR_.U/.V_ 0P/0V_ 0 0.U/0V/XR_ U/0V/XR_ R *0_ 0U/.V/XR_ R0 0K/J_ 0.U/0V/XR_ *0U/V_ 0 U/0V/XR_ *0U/.V/XR_ 0U/.V/XR_ R *0_ U/0V/XR_ 0 U/0V/XR_ 0.U/0V/XR_ 0U/.V/XR_.U/.V/XR_ R0 0K/J_ P00 R SRM SO-IMM (0P) ON R-IMM0_H /P /# 0 S0# S# K0 K0# K K# KE0 KE S# RS# WE# S0 S SL S OT0 OT M0 M M M M M M M QS0 QS QS QS QS QS QS QS QS#0 QS# QS# QS# QS# QS# QS# QS# Q0 Q Q Q Q Q Q Q Q Q Q0 Q Q Q Q Q Q Q Q Q Q0 Q Q Q Q Q Q Q Q Q Q0 Q Q Q Q Q Q Q Q Q Q0 Q Q Q Q Q Q Q Q Q Q0 Q Q Q Q Q Q Q Q Q Q0 Q Q Q R K/F_ R *0_ 0.U/0V/XR_ 0 0U/.V/XR_ R0 0K/J_ R K/F_ 0U/.V/XR_ P00 R SRM SO-IMM (0P) ON R-IMM0_H V V V V V V V V V V0 V V V V V V V V VSP N N NTEST EVENT# RESET# VREF_Q VREF_ VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VTT VTT 0.U/0V/XR_

15 . R_RVS(R) VREF Q M Solution Place these aps near So-imm. RUV Type RUV Type.Level Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. RIII SO-IMM- Tuesday, pril 0, 0 Huron River Size ocument Number Rev ate: Sheet of Quanta omputer Inc. PROJET : M 0 M M M M M M 0 M M M M M M M M M M QSP0 M QSP M QSP M QSP M QSP M QSP M QSP M QSP M QSN0 M QSN M QSN M QSN M QSN M QSN M QSN M QSN M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q IMM_S0 IMM_S SMR_VREF_Q SMR_VREF_Q_M SMR_VREF_Q_M SMR_VREF_Q_M () PM_EXTTS#0 (,) R_RMRST# (,) M [:0] () M S#0 () M S# () M S# () M S#0 () M S# () M LKP0 () M LKN0 () M LKP () M LKN () M KE0 () M KE () M S# () M RS# () M WE# () SM_RUN_LK (0,) SM_RUN_T (0,) M OT0 () M OT () M QSP[:0] () M QSN[:0] () M Q[:0] ().V_SUS V 0.V_R_VTT SMR_VREF_IMM V SMR_VREF.V_SUS SMR_VREF_IMM SMR_VREF_Q V 0.V_R_VTT.V_SUS 0U/.V/XR_ R0 0K/J_ 0U/.V/XR_.U/.V_ R0 *0_S P00 R SRM SO-IMM (0P) ON R-IMM_H /P /# 0 S0# S# K0 K0# K K# KE0 KE S# RS# WE# S0 S SL S OT0 OT M0 M M M M M M M QS0 QS QS QS QS QS QS QS QS#0 QS# QS# QS# QS# QS# QS# QS# Q0 Q Q Q Q Q Q Q Q Q Q0 Q Q Q Q Q Q Q Q Q Q0 Q Q Q Q Q Q Q Q Q Q0 Q Q Q Q Q Q Q Q Q Q0 Q Q Q Q Q Q Q Q Q Q0 Q Q Q Q Q Q Q Q Q Q0 Q Q Q 0U/.V/XR_ 0 *0U/.V_ R0 0K/J_ 0.U/0V/XR_ U/0V/XR_ U/0V/XR_ 0U/.V/XR_.U/.V/XR_ 0U/.V/XR_ R K/F_ 0 0.U/0V/XR_ R0 *0_ U/0V/XR_ 0.U/0V/XR_ P00 R SRM SO-IMM (0P) ON R-IMM_H V V V V V V V V V V0 V V V V V V V V VSP N N NTEST EVENT# RESET# VREF_Q VREF_ VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS0 VSS VSS VTT VTT 0.U/0V/XR_ 0.U/0V/XR_ U/0V/XR_ 0U/.V/XR_ 0.U/0V/XR_ R *0_ 0U/.V/XR_ R K/F_ 0 0U/.V/XR_ 0.U/0V/XR_

16 ** Straping Pin,an not pull low. Note the input leakage current to the strap pins must be less than 0u. Since ESI is O, no need for a back-drive protection diode on this signal. ut note there is internal PU in chipset at default (,0,,,) PLTRST# () E_0GTE () E_EXT_SMI# () E_EXT_SI# () E_RIN# () RSMRST# Magnetic Lid Switch VPU VPU () VPG KR KU IN V OUT Matsuki K K KR KR KR KR KR KR VPU LI# *0_S RSMRST# R0V-0 S0 SK *0_ 0K/F_ *0_S *0_S *0_S () FUN_QW# () Z_SOUT_R () _PRESENT 0K/F_ (0) TT (0) TLK PH_PWROK_E R0V-0 RSMRST# KR KR KR KR () SUSK# (0) FN-SIG (,) IN (,) LP_0 (,) LP_ (,) LP_ (,) LP_ (0) LK_PI_E (,) LP_FRME# () MLK_T () MT_T (0,,) MLK (0,,) MT () RMRST_NTRL_E () PROHOT () PH_SUSLK V () SERIRQ */J_ */J_ *.K_ () MX0 () MX () MX () MX () MX () MX () MX () MX () MY0 () MY () MY () MY () MY () MY () MY () MY () MY () MY () MY0 () MY () MY () MY () MY () MY () MY () MY KR LI# TT TLK K.K_ SI F_S0 F_SK F_S0# *0_S MLK_T MT_T 00_SK 00_S MLK MT *0P_ K K K K K K K0 VPU 0U/.V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ U/0V/XR_ KU V L0 L L L LRESET# LLK LFRME# G0/GPIO SERIRQ SMI#/GPIO ESI#/GPIO KRST# GPIO/PWUREQ# F_SI/F_SIO F_S0/F_SIO0 F_SK F_S0# LP SPI SM US PS/ I/O Expansion PEI K/ IR 0 / / PWM NPEL/NPEL KSIN0 KSIN KSIN KSIN KSIN KSIN KSIN KSIN KSOUT0/JENK#** KSOUT/TK KSOUT/TMS KSOUT/TI KSOUT/JEN0#** KSOUT/TO KSOUT/RY# KSOUT KSOUT KSOUT** KSOUT0 KSOUT KSOUT/GPIO KSOUT/GPIO KSOUT/GPIO KSOUT/GPIO/XOR_OUT** KSOUT/GPIO0 KSOUT/GPIO RY#/GPIO/PST TO/GPIO0/PSLK PST/GPIO PSLK/GPIO PST/GPIO PSLK/GPIO T/GPIO0/IOX_IN_IO T/GPIO T/GPIO0 SL/GPIO S/GPIO GPIO/SL GPIO/S SL/GPIO 0 S/GPIO SL/GPIO S/GPIO GPIO00/EXTLK KL V V V V V *0_S V GPIO 0 VPU_ITE_V 0/GPI0 /GPI /GPI /GPI 00 /GPIO0 0 /GPIO0 /GPIO0 /GPIO0 0/GPI /GPI /GPI /GPI _PWM0/GPIO _PWM/GPIO _PWM/GPIO _PWM/GPIO H_PWM/GPIO G_PWM/GPIO E_PWM/GPIO F_PWM/GPIO0 LPP#/GPIO0 LKRUN#/GPIO GPIO/HGPIO0 T/GPIO TMS/GPIO 0 **SOUT_R/GPO/TRIST# TI/GPIO GPIO IRRXL/GPIO IRRXM/TRST#/GPIO SIN_R/GPIO PEI VTT TK/GPIO/Thermal larm SPI_I/GPIO **SPI_O/GPO/SHM SPI_LK/GPIO GPIO0/IOX_OUT **TEST#GPO/IOX_LSH 0 **XORTR#GPO/IOX_SLK LKOUT/GPIO/IOX_IM_IO 0 KR0 K *0U/.V/XR_ 0 S_ON GPIO0 GPIO GPIO0 0 GPIO GPIO 0 GPIO0 GPIO KR GPIO TT_RST# GPIO VREF V_POR# VORF *0_S K 0.U/0V/XR_ LL_SYS_PWRG KR INT_LVS_LON PU_TMP_LRM T_PRS# KR.K_ VPU V POWER ON RESET K KR _ K.K_ MTV () ISENS_IN () T_PRS# () FUN_SSIST# () NSWON# () SLP_S# () T_PEN (,) SLP_SUS# () VFN (0) RIT_TEMP_REP# () T_LE# () NUMLE# () PSLE# () SROLE# () SLEEPLE# () TLE# () PWRLE# () RF_LE# () WLN_LE# () S_ON () IMVP_PWRG (,,) SLP_S# () SLP_S# () K R0V-0 SUS_ON (,0,,) RUN_ON (,,,,,) PH_PWROK_E RUN_ON_V () *0_S 0.U/0V/XR_ U/0V/XR_ HGEN# () /- (,) MPMUTE# () ISPON S_ON.Level Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. TT_RST# MTV ISENS_IN ISPON () INT_LVS_LON () WLN_RF_ON () WIRELESS_SW# () WIRELESS_SW# internal pull high E_PEI () T_LE () T_PRS# () FUN_VIO# () PM_EXTTS#0 (,) SUS_PWR_K () LL_SYS_PWRG (,,,,0,,) K KR0 KR _VPOR# () E@.K_ U/0V/XR_.0V *0K/F_ VPU VPU E_PWRTN# () PH_PWROK_E () KR KR KR0 *00K_ EXT_LVS_LKEN () SI K K VPU 00K/F_ *0K/F_ (,) VPG KR 00 KR K/F_ KU PGM KR RSET VSS V 0.0U_ 0.0U_ VPU RG0000NNF PIO K R0V-0 KR *0K/F_ SK NVSS */J_ S *00K/F_ TLK TT LL_SYS_PWRG T_PRS# INT_LVS_LON ISPON PU_TMP_LRM PU shutdown when over temperature F_S0# F_SI VPU KR 0K_ VPU KR.K_ 00_SK () F_S0#_PH () F_SI_PH () SK_PH () S0_PH MYTE WXVSSIG KEZP0N0 E-NPEL ate: Sunday, pril 0, 0 Sheet of 00_S K *000P/0V/XR/0%_ KR 00K/F_ KR.K_ KR KR KR KR KR KR KR KR KR KR TT_I () KR KR0 KR KR.K_.K_.K_.K_.K_.K_ KQ K/F_ 00K/F_ 00K/F_ SK S0 For NPEL Using MLK MT MLK_T MT_T SHN# (,,,) N00 *0_S F_S0# *0_S SI *0_S F_SK *0_S F_S0 Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev KU /S V O /HOL /WP LK I *M(WQ0VSSIG) K *000P/0V/XR/0%_ 0K/J_ K V V VPU VPU V_S 0.U/0V/XR_

17 () INT_RT_RE () EXT_RT_RE () INT_RT_GRE () EXT_RT_GRE () INT_RT_LU () EXT_RT_LU R R R R R R0 RT I@0_ E@0_ I@0_ E@0_ I@0_ E@0_ RT_R RT_G RT_ R 0/F_ V V ON 0.U/0V/XR_ 0.U/0V/XR_ RT-R R R.K/F_.K/F_ R R V_HMI RT-G U.K_.K_ POLY SWITH 0. V_RT RT-S F RT- RT-HS V HPT RT-VS 0 RT-SK () EXT_LK R I@0_ RT-SK () INT_LK 0 R0 I@0_ IN OUT RT-S () INT_T IN OUT VG () EXT_T R E@0_ 0.U/0V/XR_ () EXT_RT_HSYN R I@0_ HSYN_ HSYN_ RT-HS () INT_RT_HSYN R /F_ R I@0_ VSYN_ SYN_IN SYN_OUT VSYN_ RT-VS () INT_RT_VSYN R /F_ R E@0_ SYN_IN SYN_OUT () EXT_RT_VSYN VIEO_ VIEO_ 0.U/.V_ YP VIEO_ I@0P_ V_ M00-0/IPZ R 0/F_ V_VIEO I@0P_ V_SYN R 0/F_ L L L I@0P_ V_RT I@LM0SN/E@FM0KF-0T0 I@LM0SN/E@FM0KF-0T0 I@LM0SN/E@FM0KF-0T0 0 0P_ 0P_ 0P_ P_ P_ RT-R RT-G RT- E US amera Power RP RLK0 () INT_TXLLKOUTP I@0X RLK0- () INT_TXLLKOUTN U/0V/XR_ U (m) ROUT0 V_S RP E@0X IN OUT _PWR () N_ROUT0 U/0V/XR_ ROUT0- () N_ROUT0-0.U/0V/XR_ RP ROUT () N_ROUT E@0X MI_LK ROUT- (,0,,) SUS_ON *0P_ EN FLG () N_ROUT- U LV: MI_T *0P_ GTO/MX I rush = /0.ms RP E@0X ROUT () N_ROUT ROUT- I = 0. () N_ROUT- RP E@0X RLK0 () N_RLK0 RLK0- () N_RLK0- ROUT ROUT- ROUT0 ROUT0- ROUT ROUT- 0.U/0V/XR_ IN 0.U/0V/XR_ RLK0 R I@0_ () INT_LVS_VEN.U/.V_ RLK0- ON/OFF 0.0U_ () EXT_LVS_VEN amera 0 U/.V/XR_ () ISPON T0IGU--T/GTU *U/.V/XR_ USP- (0) L *0_S () MI_LK R0 USP (0) EXT_VRY_L () MI L *0_S () MI_T R 0K/F_ 00K/F_ R I@0 PWR INT_LVS_RIGHT () F POLY SWITH 0. V_EI V EXT_EILK () U/0V/XR_ R I@0_ 00 hange F footprint INT_EILK () *0P_ EXT_EIT () and hange. to R0 I@0_ 0 0 LV INT_EIT ().Level Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. N LVS enable F POLY SWITH() SMFF0P00 _LVS 0.U/V_ LVS_S(-0xx) ON *0P_ 0.U/0V/XR_ () INT_TXLOUTP0 () INT_TXLOUTN0 () INT_TXLOUTP () INT_TXLOUTN () INT_TXLOUTP () INT_TXLOUTN RP RP RP V U LV IN OUT I@0X I@0X I@0X Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev RT/LVS ROUT0 ROUT0- ROUT ROUT- ROUT ROUT- ate: Tuesday, pril 0, 0 Sheet of E

18 VMS (0) PIE_TXP_R (0) PIE_TXN_R (0) PIE_RXP_R (0) PIE_RXN_R M M (0) PIE_REQ_R# () R_LE# V (0) LK_PIE_RP (0) LK_PIE_RN (,0,,,) PLTRST# MR 0 mil 0 mil PIE_REQ_R# *0_S ML M M M *0_S 0.U/0V/XR_.U/.V_ 0.U/0V/XR_ MU REFLKP REFLKN HSIP 0.U/0V/XR_ PIE_RXP_R_ HSIN 0.U/0V/XR_ PIE_RXN_R_ HSOP HSON x_# LK_REQ# PERST# EEI EESK EES EEO MR V_R V_IN V_IN V V V V 0 mil 0 mil for individual trace M M0 V_ RTS0.K/F_ V_ V_S RREF M M VREF.U/.V_ 0.U/0V/XR_ V_S *.U/.V_ 0.U/0V/XR_ S_0 S_ 0 S_ S_ S_ S_ S_ S_ S_LK S_M S_WP S_# MS_S MS_0 MS_ 0 MS_ MS_ MS_ MS_ MS_ MS_ MS_LK MS_INS# 0 ard_v ard_v 0 M M.U/.V_ 0.U/0V/XR_ R_ST0 R_ST R_ST R_ST R_SLK R_SM SWP S# MS_S_R MS_T0_R MS_T_R MS_T_R MS_T_R MS_LK_R MS_# VS VMS 0 mil 0 mil MT MT MT MT MT MT MT MT Near controller Near controller MS_S_R MR MS_LK_R MR MS_T0_R MR MS_T_R MR MS_T_R MR MS_T_R MR V V V M MR MR M MR M /F_ /F_ /F_ /F_ /F_ /F_ M MR 0P/0V/XR_ *.K/F_ *.K/F_ 0P/0V/XR_.K/F_ 0pF_ *0P_ *00K/F_ MS_S MS_LK MS_T0 MS_T MS_T MS_T M 0 mil VS M 0 mil MS_# SM S# SWP *0P_ SLK MS_S MS_LK MS_T0 MS_T MS_T MS_T M M ST0 ST ST ST U/.V/XR_ ON V M_# MS_S MS_LK MS_SIO (T0) MS_T MS_T MS_T VSS 0 VSS MS_PL(S-0) 0.U/0V/XR_ U/0V/XR_ ON S-P(V) S-P(M) S-0P(#) S-P(WP) S-P(LK) S-P(T0) 0 S-P(T) S-P(T) S-P(/T) S-P() S-P() S-P() Shield Shield Shield Shield R_SM R_SLK R_ST0 R_ST R_ST R_ST MR MR MR MR MR MR0 /J_ /J_ /J_ /J_ /J_ /J_ SM SLK ST0 ST ST ST S_PL(SS-0)/PNT(SSN0-0-00) M, LK. T[0..]: length matching <0mil Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev.Level Environment-related Substances Should Never be Used. R.Recycled Resin and oated Wire should be procured from Green Partners. ate: Monday, February, 0 Sheet of

19 INT_HMI_TXP INT_HMI_TXP INT_HMI_TXP0 INT_HMI_TXP L0 INT_HMI_TXP INT_HMI_TXN IS SKU Location of I Near PU sensor temp Near GFX sensor temp Near UIO sensor temp UM SKU Location of I Near PU sensor temp Near UIO sensor temp R *0K/F_ 0 protect eside H Left Right down U RSET(kΩ)= 0.00T 0.0T..K 00 K 0 0.K 0.K SET HYST R R R R R V *G0 OT 0/F_ 0/F_ 0/F_ 0/F_ *LPSN00HLL INT_HMI_TXP INT_HMI_TXN Temp Temp *0.U/0V/XR_ OT# *0/F_ INT_HMI_TXN INT_HMI_TXN INT_HMI_TXN0 INT_HMI_TXN R-Set R0=.K R=.K R=.K R-Set R0=.K R=.K (,) INT_HMI_TXP (,) INT_HMI_TXN (,) INT_HMI_TXP (,) INT_HMI_TXN (,) INT_HMI_TXP0 (,) INT_HMI_TXN0 (,) INT_HMI_TXP (,) INT_HMI_TXN Parts in OM.K.K.K Parts in OM.K.K eside UIO JK P Right down Max Min Max Min.... R 0/F_ V V R.K/F U SET HYST V G0 OT# OT 0.U/0V/XR_ R0 INT_HMI_TXP INT_HMI_TXN INT_HMI_TXP INT_HMI_TXN INT_HMI_TXP0 INT_HMI_TXN0 INT_HMI_TXP INT_HMI_TXN I@.K/F_/E@.K/F_ H/W Thermal Protect PU Thermal Sensor U SET HYST G0 0 R V R0 R0 R0 R00 R R R0 R OT# OT I@0_/E@_ I@0_/E@_ I@0_/E@_ I@0_/E@_ I@0_/E@_ I@0_/E@_ V 0.U/0V/XR_ I@0_/E@_ I@0_/E@_ 0/F_ HMI_SL HMI_S () INT_HMI_HP_Q () EXT_HMI_HP_Q / hange R,R from.k to.k. V R E@.K/F_ () INT_HMI_SL () EXT_HMI_SL () INT_HMI_S () EXT_HMI_S GPU Thermal Sensor U Q0 N00 SET HYST V R0 E@G0 OT E@0/F_ V OT# N N R *Rclamp00N R R E@0.U/0V/XR_ HMI_SL IO HMI_S IO V V V I@0_ OT# V V_HMI R I@0_ R I@0_ R R 00K/J_.K_.K_ (00m) U TSH0FU Q 0.U/0V/XR_ 0K/J_ V N00W INT_HMI_TXP INT_HMI_TXN INT_HMI_TXP INT_HMI_TXN INT_HMI_TXP0 INT_HMI_TXN0 INT_HMI_TXP INT_HMI_TXN HMI_SL HMI_S V V V V (m) HMI_HP_L R 00K/F_ HMI_SL HMI_S Q TEU R R R0.K_.K_ (,,,) SHN# R 00K/J_ 0K/J_ 0 HMI ON0 Shield - Shield Shield 0- K K Shield K- E N LK T /E EOER V HP HMI_OP(--L ) 0.U/0V/XR_ R0V-0 R0V-0 Q N00 Q *N00 Shield Shield Shield Shield V V 0 _VPOR# () V_S (,) T_PEN () H_T_INTEL *U/0V/XR_ U IN OUT EN *G0-0TU/G-0TU H_T_INTEL FLG R0 *00K/F_ R T_V *0/F_ U *TSH0FU *U/0V/XR_ *0.U/0V/XR_ T_H_T_INTEL T_V luetooth ON V(.) (0m) T_V T_H_T_INTEL (0) USP- (0) USP T_LE () T_LE H_T_INTEL US_T- US_T LE *T(XKF0YG) H_LK_INTEL TN_ONNET# N MT XKF0YG 0 T_H_LK_INTEL T_H_LK_INTEL () T_PRS# T_PRS# () Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev.Level Environment-related Substances Should Never be Used. HMI/luetooth/Thermal I.Recycled Resin and oated Wire should be procured from Green Partners. ate: Wednesday, pril 0, 0 Sheet of

20 V_S V_S V_S ON TP/_S(0-00) 0U/.V/XR_ F F F M to US board POLY SWITH. USPWR_P USPWR_P USPWR_P 0.U/0V/XR_ POLY SWITH. 0.U/0V/XR_ POLY SWITH. 0.U/0V/XR_ USP- (0) USP (0) USP- (0) USP (0) USP (0) USP- (0) 0mil V_S_USP SUS_ON 0mil V_S_USP SUS_ON 0mil V_S_USP SUS_ON USPWR_P U IN OUT IN OUT OUT EN O# US_O# (0) GKPU (.) USPWR_P U IN OUT IN OUT OUT EN O# US_O# (0) GKPU (.) USPWR_P U IN OUT IN OUT OUT EN O# US_O# (0) GKPU (.) (0) USP0- (0) USP0 V_S F L *WM0-0 POLY SWITH. US PORT 0 USPWR_P0 USP0- USP0 0mil V_S_USP0 (,,,) SUS_ON 0 0.U/0V/XR_ U0 IO IO V N N *Rclamp00N 0.U/0V/XR_ 0U/.V USPWR_P0 (.) ON V T- T US_FOX(U-R0-F ) 0 USPWR_P0 U0 IN OUT IN OUT OUT EN O# US_O0# (0) GKPU T/P oard to T/P / change F P/N from 0. to 0. FN V () TT () TLK SWR SWL V POLY SWITH 0. F V_TP ON SWL SWR SW SW NT0-G-0T NT0-G-0T V () VFN 0 U/0V/XR_ U Vout VEN VSET G/RT0PS () FN-SIG FNV_ 0U/.V/XR_ 000P/0V/XR/0%_ R 0K/F_ ON.. FN-S(0-000L) 000P/0V/XR/0%_ *UZ. 0 *UZ. *UZ. *UZ. *UZ. TP_S(-0N) Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev.Level Environment-related Substances Should Never be Used. US/TP/FN.Recycled Resin and oated Wire should be procured from Green Partners. ate: Monday, February, 0 Sheet 0 of

21 E EFuse only without SF LR V_S_LN LR 0K/J_ LT K/F_ LT LT LR 0K/J_ L 0.U/0V/XR_ L.U/.V_ L L L L L L0 0mil V_S LR 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ L L L L L L L V0_LN 0mil *0_S L L 0mil LL 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ V_S_LN 0.U/0V/XR_.U/.V_ V_S_LN LU VREG VREG V V V V(N) V V.uH V0_OUT REGOUT 0mil V0_LN V0 V0 V0(N) V0(N) V0 V0 V0(N) EV0 PERST GPO/SMLERT SMLK(N) SMT(N) RTLE LKREQ LE/EESK 0 HSIP HSIN REFLK_P REFLK_N LE0 LE/EEO HSOP HSON 0 EES/SL LR0 0K/J_ MI_TXP0 MI_TXN0 MI_TXP MI_TXN MI_TXP MI_TXN MI_TXP MI_TXN ISOLTE# LN_WKE# ENSWREG LR LR XTL_LN_IN XTL_LN_OUT LN_RSET ISOLTE# LR mil mil LR *K/J_ K/F_ *0_S V_S_LN *0_ V High: Enable S/W REGULTOR V_S_LN 00 LR 0K pull high L U/0V/XR_ L0 0.U/0V/XR_ LR.K/F_ IN (,) (,0,,,) PLTRST# (0) PIE_LKREQ_LN# (0) PIE_TXP_LN (0) PIE_TXN_LN (0) LK_PIE_LNP (0) LK_PIE_LNN (0) PIE_RXP_LN (0) PIE_RXN_LN L L 0.U/0V/XR_ 0.U/0V/XR_ PIE_RXP_LN_ PIE_RXN_LN_ :hange crystal and capacitor value pf L P_ LY L P/0V_ XTL_LN_IN MHz/PF/0ppm XTL_LN_OUT LR *M/J_ LN_WKE# Mode : Support Wake on LN Mode : on't support wake on LN PIE_WKE# () LY ann't create nd by TX L TT MI_TXP0 MI_TXN0 MI_TXP MI_TXN MI_TXP MI_TXN MI_TXP MI_TXN 0 LU TT T T- TT T T- TT T T- TT T T- OT(GST00 LF) MT MX MX- MT MX MX- MT MX MX- MT MX MX- 0 LR MI_TXP0_TR MI_TXN0_TR LR MI_TXP_TR MI_TXN_TR LR MI_TXP_TR MI_TXN_TR LR MI_TXP_TR MI_TXN_TR 0mil L 000p/KV_0 MI_TXP0_TR MI_TXN0_TR MI_TXP_TR MI_TXP_TR MI_TXN_TR MI_TXN_TR MI_TXP_TR MI_TXN_TR 0.0u/V_ EEI/S MIP0 MIN0 MIP MIN MIP(N) MIN(N) MIP(N) MIN(N) 0 ISOLTE LNWKE ENSWREG KXTL KXTL RSET 0 LR 0K/F_ LR LQ N00 *0_ /F_ /F_ /F_ /F_ ON 0 RJ_OP(00E-00-L ).Level Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev LN RTLE ate: Tuesday, pril 0, 0 Sheet of E

22 V_MINI WLN/WIMX/WII V_MINI V_MINI R *0K/F_ ON (H=mm) T_PEN R *0_S *0P_ W_ISLE#_T.Vaux -Link_RST# 0 -Link_T.V T_LE# () *0P_ -Link_LK LE_WPN# LE_WLN# WLN_LE# () V_MINI.Vaux LE_WWN#.Vaux 0 US_ USP (0) US_- USP- (0) (0) PIE_TXP PETp0 (0) PIE_TXN PETn0 SM_T SM_LK 0.V (0) PIE_RXP PERp0 (0) PIE_RXN PERno.Vaux PLTRST# (,0,,,) T_PEN R *0_ PERST# (,) T_PEN Reserved/UIM_ W_ISLE# 0 WLN_RF_ON () R0V-0 (0) LK_PI_LP R *0_S Reserved/UIM_ *P/0V/NPO_ 0/UIM_VPP LP_0 (,) (0) LK_PIE_WLNP REFLK /UIM_RST LP_ (,) (0) LK_PIE_WLNN REFLK- /UIM_LK LP_ (,) /UIM_T 0 LP_ (,) (0) PIE_LKREQ_WLN# LP_FRME# (,) WLN_H_LK_INTEL LKREQ# FRME#/UIM_PWR T_HLK.V () H_T_INTEL T_T WKE#.Vaux V_MINI *0P_ MiniPIE-FOX(S0-S0N-F) IMT V_MINI R 0K/F_ R0 0K/F_ WLNluetooth 0 : Internal Pull high K ~ K V R U/.V/XR_ V_MINI *0_S R WLN_H_LK_INTEL R 00K/F_ V_MINI 0m Peak, m vg *0_S 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ U/0V/XR_ 0U/.V/XR_ *U/.V/XR_ *U/.V/XR_ U *TSH0FU R *00K/F_ T_H_LK_INTEL () HOLE WLN H H-P T H H-0P H *O-HK- H0 *O-HK- H *O-HK- H *O-HK- H *O-HK- H *O-HK- 0 H *O-HK- H *O-HK-0 H *O-HK- H *O-HK- H *O-HK- H *O-HK- H *O-HK- H *HG-TSS0P H *SP-REXNP H *O-HK- O-HK- H *SP-REXNP H *HK-M H *HK-N H-0P H0 *SP-REX H *SP-REX H *HK- 0 H H *SP-REX *SP-REX H0 *HK- H *HK- H *HK- H *HK-E H *HK-N H-P H h-tcbsdp H *HK-F H h-tcbsdp H H-P H *H-P H *O-HK- H *spad-daom-np H *spad-daom-np H *HK-G H *HK-H H *HK-N H *HK-N spad-daom-np H *HK-I H *HK-J H *O-HK- H H *H-PT *H-PT H0 *O-HK- H *O-HK- H *SP-RE0X H *SP-HK-0 H *HK-K H0 *HK-L Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev.Level Environment-related Substances Should Never be Used. WLN/WIMX/WII.Recycled Resin and oated Wire should be procured from Green Partners. ate: Tuesday, pril 0, 0 Sheet of

23 () ST_TXP () ST_TXN () ST_RXN () ST_RXP 0 0 ST_TXP 0.0u_ 0.0u_ ST_RXN_ ST_RXP_ O ONNETOR ON - - P V V M 0 / hange H nd source connector patt number R *K_ ST-O_SUY(FR0SZR) 0U/.V/XR_ 0.U/0V/XR_ 0U/.V/XR_ V *Ulamp00P ST_TXP N IO ST_TXP ST_TXN N IO ST_TXN V V *Rclamp00N ST_RXN_ N IO ST_RXN_ ST_RXP_ N IO ST_RXP_ V V *Rclamp00N / dd ES prptection, I for O ST_TXP0 N IO ST_TXP0 ST_TXN0 N IO ST_TXN0 V V_H *Rclamp00N ST_RXN0_ N IO ST_RXN0_ ST_RXP0_ N IO ST_RXP0_ V V_H *Rclamp00N () ST_TXP0 () ST_TXN0 () ST_RXN0 () ST_RXP0 0.0U_ 0.0U_ H ONNETOR ST_RXN0_ ST_RXP0_ ON - - hole hole Lock Lock ST H V V V V V V UNLO V V V 0 0 (."H V Max=., VG=0.) (."SS V typ=0.,max=.) (.) 0U/.V/XR_ 0U/.V/XR_ V_H 0.U/0V/XR_ U V_S IN OUT V_H IN OUT OUT () RUN_ON_V EN O# G (.) / hange U from G to G. / dd ES prptection, I for H ON OFF RUN_ON RUN_ON_V 0ms.0V P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ V EMI 000P/0V/XR/0%_ V_S 000P/0V/XR/0%_ 0 000P/0V/XR/0%_ 0U/V/XS/0 000P/0V/XR/0%_ 000P/0V/XR/0%_ 0U/V/XS/0.V V_S 000P/0V/XR/0%_ 0U/V/XS/0 000P/0V/XR/0%_ *0U/V/XS/0 000P/0V/XR/0%_ 000P/0V/XR/0%_ *0U/V/XS/0.0V V 000P/0V/XR/0%_ *0U/V/XS/0.0V V 000P/0V/XR/0%_.0V V 000P/0V/XR/0%_ 000P/0V/XR/0%_ *U_0 V_S V.0V V 000P/0V/XR/0%_ 0.0V V U/V/XR_ 000P/0V/XR/0%_.0V V 000P/0V/XR/0%_.0V V 000P/0V/XR/0%_ U/V/XR_.V V_S 0 000P/0V/XR/0%_ U/V/XR_.V V_S 000P/0V/XR/0%_ U/V/XR_.V V_S 000P/0V/XR/0%_ 0 U/V/XR_.V V_S.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V.V P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_.V.V.V.V VGPU_ORE VGPU_ORE VGPU_ORE VGPU_ORE VGPU_ORE.V 000P/0V/XR/0%_.V V V_S V P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_.V.0V U/V/XR_ *U/V/XR_ 0 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_ 0.U/0V/XR_.V_SUS VGPU_ORE VGPU_ORE 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_.V V_S VGPU_ORE VGPU_ORE V 0 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ V V V 0.U/0V/XR_ Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev.Level Environment-related Substances Should Never be Used. H/O.Recycled Resin and oated Wire should be procured from Green Partners. ate: Monday, February, 0 Sheet of

24 () Z_RST# () Z_ITLK () Z_SYN () Z_SIN0 () Z_SOUT 0 *P/0V_ Z_RST# R *0P/0V_ R 0_ R _ V 0U/.V/XR_ *0_ 0.U_/XR 0U/.V/XR_ V 0.U/0V/X_ U/.V/XR_ 0.U_/XR R *0_S V_V 0.U/0V/X_ 0.U/0V/X_ U/.V/XR_ 0U/.V/XR_ U/.V/XR_ 0.U_/XR FILT_.V U RESET# IT_LK SYN ST_IN ST_OUT FILT_. V_.V FILT_.V LSS_V VUX_. V_IO V_. V_HP FILT_. V_. V_V LPWR_.0 L *0_S V 0.U/V/Y_ 0U/.V/XR_ V 0.U/0V/X_ 0.U/0V/X_ 0U/.V/XR_ *0U/.V/XR_ 0.U/0V/X_ SENSE_ SENSE R R R RPWR_.0 LSSREF V_. pin is output of internal LO. o NOT connect to external supply. Layout Note: Path from V to LPWR_.0 and RPWR_.0 must be very low resistance ( <0.0 ohms). () MPMUTE# Z_RST# EP#.K/F_ V_V 0K/F_ MI_J.K/F_ HP_J R *S *S *0_S V R *K/F_ MUTE# R *0_S *0_S *0_S *0_S *0_ PIN: PIN: PORT_R PORT_L _IS () SPKR R0 _ EP# MUTE# () MI_LK () MI_T R R 0.U/0V/X_ *0_ 00/F_ igital Micphone T MI_LK_R 0 0 P_EEP N_S GPIO0/EP# GPIO/SPK_MUTE# MI_LK MI_/ X0-Z LEFT LEFT- RIGHT- RIGHT _IS PORT_R PORT_L N_R N_L PORT_R PORT_L VEE FLY_N FLY_P EP_ 0 0 MI-VREFO MI_R MI_L 0 HPOUTR R _ HPOUTL R _ VEE U/.V/XR_.U/.V/X_.U/.V/X_ 0 0.U/0V/X_ MI_R MI_L HPOUT_R HPOUT_L R0 R 0U/.V/XR_ 00/F_ 00/F_ EXTMI_R EXTMI_L SPK_R SPK_R- SPK_L- SPK_L / hange L,L,L,L from 0ohm to short pad. / hange L~L footprint from 0ohm to short pad HPOUT_L HPOUT_R HP_J L L 0 *0_S *0_S *PESV0S P_ *PESV0S P_ *PESV0S ON HP_SIT(SJ0-00) 0 HP INT Speaker SPK_L R SPK_L- R SPK_R R SPK_R- R *0_S *0_S *0_S *0_S PESV0S PESV0S SPK_L_OUT SPK_L-_OUT SPK_R_OUT SPK_R-_OUT ON Speaker((0-000L)) MI-VREFO R R00V-0 R R00V-0 K_ K_ EXTMI_L EXTMI_R MI_J L L *PESV0S *0_S *0_S P_ *PESV0S P_ *PESV0S HP_SIT(SJ0-00) 紅紅紅號號號號 ON 0 MI Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev.Level Environment-related Substances Should Never be Used. udio odec X0.Recycled Resin and oated Wire should be procured from Green Partners. ate: Tuesday, pril 0, 0 Sheet of 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ 000P/0V/XR/0%_ PESV0S PESV0S

25 WIRELESS/luetooth SWITH Q V R.K/F_ V () WIRELESS_SW# R 0_ SW SSSS00 OFF ON MLK_V (0,,) MLK MLK_V () (0,,) MT V N00W R MT_V.K/F_ V MT_V () RF LE Green color EVL_-SYG-/S0-E-TR R () RF_LE# V./F_ *Ulamp00P *Ulamp00P () ST_T# ST LE V R 0K/F_ V Q HTYUPT R 0/F_ () TLE# TTERY LE VPU Q HTYUPT R 0/F_ Power/Sleep LE VPU () PWRLE# SLEEPLE# () Q TEU R /F_ Q TEU R /F_ R LE *ulamp0 V ORNGE EVL_-UY/S0-/TR Yellow color ( nm) EVL_-UYO/S0-/TR Umber olor Green color(nm) Umber color(0nm) EVL_-/SGH-0/ () R_LE# R 0/F_ EVL_-UY/S0-/TR 0 *0.0U/V_ 0 *ulamp0 KEY OR onnector () MY () MY () MY () MY () MY () MX () MY0 () MX () MX () MY () MX () MY () MY () MY () MY () MY () MY () MX () MY () MY () MY0 () MX () MX () MX0 () MY () MY MX0 R MX R MX R MX R RP X RP X RP X RP0 X RP X RP X R _ R _ 0K/J_ 0K/J_ 0K/J_ 0K/J_ VPU 0 0 ON K_S(-0N) Power SW oard onnector FUN_QW# & FUN_SSIST need bootable. () FUN_SSIST# () FUN_QW# () FUN_VIO# () NSWON# V V V () NUMLE# () PSLE# () SROLE# Q Q TEU TEU R R R R0 R 0/F_ NUMLE PSLE SROLE K/F_ K/F_ K/F_ K/F_ PES00-0 R_NSWON# R 0/F_ NUMLE PSLE SROLE 0 ON 0 LE_S(-) Q TEU R 0/F_ MX MX MX MX R R R R 0K/J_ 0K/J_ 0K/J_ 0K/J_ Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev.Level Environment-related Substances Should Never be Used. LE/RF/K/PS.Recycled Resin and oated Wire should be procured from Green Partners. ate: Wednesday, pril 0, 0 Sheet of

26 GFX_ORE LL: -.mv/ (OP0, PR:.K) - GT V_GT_ ER *Short_ P00 *I@0P/0V/XR V_ORE V_S PR._ PR 0_ PR I@0K/NT/THINKING_ PR PR PR 0K/NT/THINKING_ I@.K/F_ I@.K/F_ Place NT close to the GFX_ORE Hot-Spot. PR PR.K/F_.K/F_ Place NT close to the VORE Hot-Spot. PR *.K/F_ Parallel P0 I@0P/0V/XR_ PR I@0_ () V_XG_SENSE PR I@0_ () VSS_XG_SENSE P P I@000P/0V/XR/0%_ PR I@P/0V/NPO_ *I@.K/F_ PR I@.K/F_ PR PR *I@.K/F_ P I@K/F_ P PR I@0P/0V/NPO_ I@0P/0V/XR_ I@/F_ PR PU I@.0K/F_ V_S OOT_GT V HG_GT VP PHSE_GT P VR_ON LG_GT.U/.V/XR_ PGOOG V PGOO OOT ISLHRTZY -IMONG IMONG (N) UG -IMON IMON (N) PH PR () H_PROHOT# 0.K/F_ VR_HOT# LG TP () VR_SVI_LERT# PR *0_S P LERT# VSSP *P/0V/NPO_ (,,,,0,,) LL_SYS_PWRG () VR_SVI_T S TP () VR_SVI_LK SLK OOT TP (,,) IMVP_PWRG UG NTG PH PR.K/F_ NT LG PROG VSSP PR I@.K/F_ PROG P VW PWM 000P/0V/XR/0%_ OMP PR.K/F_ P U/.V/XR_ P 0.U/V/XR_ P I@000P/0V/XR/0%_ PR0.0K/F_ F P P/0V/NPO_ PR.K/F_ P PR 0P/0V/NPO_ K/F_ P0 PR 0P/0V/XR_ /F_ P P0 PR 0P/0V/XR_ K/F_ 0P/0V/OG_ P 0P/0V/XR_ PR *0_S () V_SENSE PR *0_S () VSS_SENSE P 0P/0V/XR_ P Parallel 000P/0V/XR/0%_ VORE LL:.mV/ VWG OMPG FG VSENG P I@0P/0V/XR_ RTNG ISUMPG ISUMNG VSEN RTN ISEN ISEN ISEN 0 ISUMN ISUMP PR P0 *I@00/F_ *I@0P/0V/XR_ EP PR P PR *00/F_ *0P/0V/XR_ *0_ PR.K/F_ PR *0_ P 0.U/0V/XR_ INT_GFX_IS () PR I@0/F_ P I@0.U/0V/XR_ P *I@0.U/0V/XR_ PR I@K/F_ PR I@.K/F_ PR I@0K/NT/THINKING_ UGTE_GT PHSE_GT ISPG ISNG P I@0U/V/XS/0 P I@0U/V/XS/0 P I@0U/V/XS/0 E *I@0.U/V/YV_ E *I@00P/0V/XR_ Place NT close to the GFX_ORE inductor LGTE_GT PQ PQ PR I@NTMFS I@NTMFS I@._ 0 OOT_GT UGTE_GT P I@0.U/V/XR_ ISPG PR I@0K/F_ PHSE_GT ISNG PR I@/F_ LGTE_GT PR. V_ORE OOT_ ER *Short_ UGTE_ P0 _V_ORE 0.U/V/XR_ PHSE_ LGTE_ PR G._ UGTE_ OOT_ OOT_ S PQ NTMFS UGTE_ P PR 0.U/V/XR_ 0K/F_ PHSE_ PL0 V_ORE 0.UH-PM0T-RMT-0 LGTE_ V_S PHSE_ 0 VR_PWM LGTE_ PQ PQ0 NTMFS NTMFS VSUM PR0.K/F_ PR PR0 0K/F_.K/F_ ISEN_ VSUM PR *0K/F_ VSUM- VSUM- PR /F_ ISEN_ PR 0K/NT/THINKING_ Place NT close to the VORE inductor of phase _V_ORE ER V_S *Short V_ORE P 0.U/0V/XR_ ISEN_ G P 0.U/0V/XR_ UGTE_ ISEN_ VSUM- S PQ NTMFS PR0 V_ORE ISEN_ 0K/F_ PL 0.UH-PM0T-RMT-0 PHSE_ P 0.U/0V/XR_ PR K/F_ PR 0_ P 0.U/0V/XR_ P I@0.U/0V/XR_ G S PQ PR I@NTMFS I@0K/F_ PR I@._ P I@000P/0V/XR/0%_ PR._ P 000P/0V/XR/0%_ P 0U/V/XS/0 P 0U/V/XS/0 PL I@0.UH-PM0T-RMT-0 P 0U/V/XS/0 P 0U/V/XS/0 E0 *0.U/V/YV_ E *0.U/V/YV_ E *00P/0V/XR_ E *00P/0V/XR_ P I@0U/.V/XR/0%_ V_GFX P0 0U/V/0X0./N/ML P *U/V/X./N/ML P *U/V/X./N/ML P *U/V/X./N/ML -IMON -IMONG PR._ PR.K/F_ P 0.0U/V/XR_ PR I@.K/F_ P I@0.0U/V/XR_ LGTE_ PQ PQ NTMFS NTMFS VSUM PR0.K/F_ PR 0K/F_ ISEN_ P 000P/0V/XR/0%_ VSUM- PR /F_ PR *0K/F_ ISEN_.Level Environment-related Substances Should Never be Used. Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev V_ORE (ISL).Recycled Resin and oated Wire should be procured from Green Partners. ate: Tuesday, pril 0, 0 Sheet of

27 .V & V ER *Short_ ER *Short_.0 V MIN PQ O0.0 V_S P 0U/.V/.X/ESR=/FP_ME P *0U/.V/XR/0%_ PR.K/F_ PR0.K/F_ P 0U/V/XR/0 E *0.U/V/YV_ E *00P/0V/XR_ PQ O PL.UH-PM0TRMN- PR *._ P *000P/0V/XR/0%_ V_H PR 0K/F_ V_LX V_L PQ O P PZ. PR K/F_ PR 0.K/F_ PR K/F_ P 0.U/V/XR_ P *U/0V/XR_ F ILIMIT R_VPG VEN 0 PR _ P.U/.V/XR_ P U/V/XR_ LO YP OUT F ILIM PGOO EN H LX P P ST LO ENLO PU PMTR PR *0_ V_V TON REF LOREFIN LO N. EN_LO V TON REF P P P ST L V N. P L ST 0 PR *0_ 0.U/0V/XR_ P PR REFIN ILIM OUT SKIP PGOO EN H LX ST P U/0V/XR_ PR *0_S 0 *0K/F_ REFIN ILIMIT SKIP R_VPG VEN V_H V_LX P 0.U/V/XR_ PR _ PR 0_ V_V PR 0_ PR 0K/F_ PR 0K/F_ PR 00K/F_ PR *0_ V_L E *0.U/V/YV_ E *00P/0V/XR_ P 0U/V/XR/0 P 0U/V/XR/0 PQ O PL.UH-PM0TRMN- PQ O PR *._ P *000P/0V/XR/0%_ PR 0_ PR *0_ P0 *0U/.V/XR/0%_ P 0U/.V/.X/ESR=/FP_ME VPU PQ O.0.0 V PR *0_S MIN P *000P/0V/XR/0%_ PQ V_S O0 RV () S_ON PR0 *0_S P.U/.V/XR_ LO P 0.U/V/XR_ VPU P 0.U/V/XR_ P 0.U/V/XR_ P TSPT P P 0.U/V/XR_ TSPT PR *0/short_ {PRT NUMER} SHN# (,,,) R_VPG R_VPG PR PR *0_S *0_S VPG (,) VPG ().V_SUS V_S V_S VPU () SUSG SUSG PR00 M_ PR _ PR PR PR M_ 00 RVG PR M_ RV (,,0,) SUS_ON PQ TEU PR0 M_ PQ N00 () S_ON PR PQ M_ N00 PQ N00 PQ N00 PQ N00 P0 00P/0V/XR_ V 0.V_R_VTT.0V 0.V.V.V V VPU PR0 M_ PR 00_ PR0 00_ PR _ PR _ PR _ PR _ PR _ PR M_ (,,,) MING MING MIN MIN (,) (,,,,,) RUN_ON PQ TEU PR M_ PQ N00 PQ N00 PQ0 N00 PQ N00 PQ0 N00 PQ N00 PQ N00 PQ N00 P 0P/0V/XR_.Level Environment-related Substances Should Never be Used. Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev VPU&VPU(PM).Recycled Resin and oated Wire should be procured from Green Partners. ate: Tuesday, pril 0, 0 Sheet of

28 E..V_SUS. 0.V_R_VTT PR SMR_VREF *00/F_ 0 mil P 0U/.V/XR/0%_ PU RT0 VLOIN 0 mil VTT PR *0_S P P VTT 0U/.V/XR/0%_ 0U/.V/XR/0%_ VTTSNS RT0 RT0-MOE MOE VTTREF V_S PR0 *0_S RT0-OMP EM (-P mode) P 0.0U/0V/XR_ VQSNS RT0-VQSET VQSET.VSUS & VTT_MEM N N TON VFILT VST RVH LL 0 RVL P S PGOO S S 0 PR I@._ / E@._ RT0-ST RT0-H RT0-LX RT0-L RT0-S PR I@K/F_ / E@K/F_ RT0-PG RT0-S P 0.U/V/XR_ RT0-V 0u V_S P0.U/.V/XR_ PR 0K/F_ G G S P P P 0U/V/XR/0 0U/V/XR/0 E@0U/V/XR/0 PQ NTMFS S P PQ 000P/0V/XR/0%_ I@NTMFS / E@NTMFS PL I@.UH-PM0TRMN- / E@UH-PM0TR0MN- PR._ P E E@0U/.V/.X/ESR=0/SVPE *0.U/V/YV_ E P *00P/0V/XR_ 0U/.V/.X/ESR=0/SVPE ER *Short_ P 0U/.V/XR/0%_ Ext: Int: 0.V_SUS E Non-tracking discharge PR *0_S RT0 PR *0_ P *000P/0V/XR/0%_ PR *0.K/F_ PR 0_ RT0 RT0 For 00KHz Fsw PR 0K/F_ PR *0_ V_S V_S./F_ PR PR *0_S RT0-TON RT0-V P 0.0U/V/XR_ RT0 P U/0V/XR_ PR PR0 P0 *0.U/0V/XR_ RT0.V_PUVQ_PG *0_S *0_S LL_SYS_PWRG (,,,,0,,) SUS_ON (,,0,) RT0 RT0.V. V_S RUN_ON (,,,,,).V_SUS 0 mils PQ RMW00N0FUT 0 mils PR PR P0 R00V-0 P0 00P/0V/XR_.V 0K_ 0K/F_ MIN (,) V_S PR.V *0K/F_ PR *K/F_ PQ0 *FV0N_NL_00M PR PR 0K/F_ *0K/F_.V_PUVQ_PG PQ *N00W PQ N00 MING (,,,).V 0.V_R_VTT ms MOE V.V ISHRGE MOE No discharge Tracking discharge Non-tracking discharge VQSET VQ(V) VTTREF & VTT NOTE. fixed VQSNS/ V. fixed VQSNS/ F-Resistor djustable VQSNS/ R R.V<VQ<V VTT = VTTREF = VQSNS/ = 0.V STTE S S.VSUS VTTREF VTT S0 S S/S on on on on on off off off off.level Environment-related Substances Should Never be Used. Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev.VSUS/VTT_MEM.Recycled Resin and oated Wire should be procured from Green Partners. Tuesday, pril 0, 0 ate: Sheet of

29 .0V /.0 _ ER *Short_ P0 0U/V/XR/0 P *0U/V/XR/0 E *00P/0V/XR_ G S PQ NTMFS V_S (,,,,,) RUN_ON (0).0V_VTT_PWRG P0 0.0U/V/XR_ PR K/F_ FSW Setting 00KHz 00K/F_ V P P U/.V/XR_ PR *000P/0V/XR/0%_ 00K/F_ UP_ UP_ PR 0_ -EN/PSM -TON -F PQ NTMFS PR0._ PQ *NTMFS P 000P/0V/XR/0%_ PL 0.UH-PM0T-RMN- P *0U/.V/.X/ESR=0/SVPE P 0U/.V/.X/ESR=0/SVPE P 0U/.V/.X/ESR=0/SVPE P 0U/.V/XR/0%_.0V UP_.U/.V/XR_ -LGTE PR *0_S -LGTE Rds*OP=RILIM*0u UP_ PR *0_S VP_SENSE () UP_ R PR0.0K/_ P 000P/0V/XR/0%_ PR PR 00/F_ 00/F_ VSSP_SENSE () V R PR 0K/_ VOUT=(R/R)*0. PR *00K/F_ P 0U/V/XR/0 E U/V/XR_ PR 0/ hange PU from UPRQ to G0RU PU G0RU PR P._ 0.U/V/XR_ -OOT EN/EM OOT -UGTE TON UGTE -PHSE VOUT PHSE 0 -O PR.K/F_ V_S V O F PR._ PGOO -VP P VP PR 0K/F_ N N TP LGTE P PR00 *0/short_ H_SN_IV#_PWRTRL 0.0V_VTT.0V.0V () H_SN_IV#_PWRTRL PR *00K/F_ P *0.0U/V/XR_ PR0 *0_S PQ *N00 UP_ UP_.Level Environment-related Substances Should Never be Used. Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev.0V (UPRQ)-.Recycled Resin and oated Wire should be procured from Green Partners. ate: Tuesday, pril 0, 0 Sheet of

30 0.V / V PQ0 STNLLH.0V 0 mils (,,,,,,) LL_SYS_PWRG ().0V_VTT_PWRG PR PR *0_S *0_S P 0.U/0V/XR_ -EN V_S P 0U/.V/XR/0%_ P *0U/.V/XR/0%_ PU PEY PG EN V RV F -RV -F PR0 *0_ P *0.0U/V/XR_ PR 00/F_ PR 0 mils P0 *0U/.V/XR/0%_ *0_S VUS_SENSE () 0.V P 0U/.V/.X/ESR=0/SVPE P 0.U/0V/XR_ Rg PR.0K/F_ P 000P/0V/XR/0%_ V_S Rh PR 0.K/F_ PR.K/F_ 0/ hange P from 0P_ to 000P_ PR0 0K/F_ Vout = (Rg/Rh)*0. () VS_SEL PR K/F_ PQ MMT0 PQ N00 PR *0_ PR K/F_ P *0.0U/V/XR_ VI 0 VS_SEL V 0.V 0.V 0.V 0.V Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev.Level Environment-related Substances Should Never be Used. 0.V(OZLN).Recycled Resin and oated Wire should be procured from Green Partners. ate: Tuesday, pril 0, 0 Sheet 0 of

31 VG_ORE /. ER *Short_ (,,,,,0,) LL_SYS_PWRG (,,,,,) RUN_ON P E@000P/0V/XR/0%_ PR P0 PR E@00K/F_ P E@0.0U/V/XR_ PR E@0_ E@0K/F_ E@R00V-0 P E@0.0U/V/XR_ PR E@K/F_ PR E@.K/F_ R R PR E@.K/F_ P E@0.U/0V/XR_ PR0 E@0K/F_ P E@U/.V/XR_ PG EN VSET REF P V PG PR E@_ PU E@OZLN ON/SKIP VSET VREF TSET OT E@000P/0V/XR/0%_ PR *0/short_ VP P V_S P P E@R00V-0 E@U/.V/XR_ PR E@._ ST ST PR HR E@0K/F_ HR P0 E@0.U/V/XR_ 0 LX LX LR LR SP SP SN SN P P E@000P/0V/XR/0%_ E@P/0V/NPO_ G S PQ E@NTMFS PQ *E@NTMFS P E@0U/V/XR/0 P E@0U/V/XR/0 PQ0 E@NTMFS PR E@._ P E@000P/0V/XR/0%_ E E *E@0.U/V/YV_ *E@00P/0V/XR_ PL E@0.UH-PM0T-RMN- PR0 E@0.K/F_ PR P0 E@./F_ PR E@0.0U/V/XR_ E@00K/F_ P0 E@00P/0V/XR_ PR E@.K/F_ P0 E@0U/.V/.X/ESR=0/SVPE P E@0U/.V/.X/ESR=0/SVPE P E@0U/.V/.X/ESR=0/SVPE P0 E@0U/.V/XR/0%_. VGPU_ORE PR E@0_ NP-GV External VG_ORE Voltage Setting: Vout=.*(R/(RR)) () GFX_ORE_NTRL0 () GFX_ORE_NTRL PR PR E@00K/F_ E@00K/F_ P P E@0.0U/V/XR_ E@0.0U/V/XR_ PR PR0 E@.K/F_ E@.K/F_ PQ E@N00W GFX_ORE_NTRL GFX_ORE_NTRL0 VG_ORE 0 0.0V 0.00V 0 0.V 0.V NM-GS External VG_ORE Voltage Setting: GFX_ORE_NTRL GFX_ORE_NTRL0 VG_ORE PR=.K/F_ PR=0_ PR0=.K/F_ PR=.K/F_ 0 0.0V PR=.K/F_ 0.00V PR=0_ PR0=.K/F_ PQ *E@N00W 0 0.V 0.V PR=.0K/F_ (0.) V ().0V is-charge UM_GFX_ISLE ().V VGPU_ORE V_S PR E@_ PR E@0_ (,,,) MING PQ E@N00 INT_GFX_IS ().Level Environment-related Substances Should Never be Used. Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev VG_ORE(OZ)-.Recycled Resin and oated Wire should be procured from Green Partners. ate: Tuesday, pril 0, 0 Sheet of

32 V. PQ O PQ O VPU 0 mils (,,,,,0,) LL_SYS_PWRG V PR *0_S PR0 0K/F_ P 0.0U/0V/XR_ P 0.U/0V/XR_ P 0U/.V/XR/0%_ PU PEY PG RV -EN EN V_S F V P P0 E@R0V-00.U/0V/XR_ -RV -F PR *0_ P *0.0U/V/XR_ Rg Rh PR.K/F_ PR 0K/F_ 0 mils P 000P/0V/XR/0%_ P 0U/.V/XR/0%_ P *0U/.V/XR/0%_..V (,,,,,) RUN_ON Vout = (Rg/Rh)*0. Thermal Protection for VES PR 00_ V VREF PR _ VREF PR0 K/F_ PR0.K/F_ PR.K/F_ PR0.K/F_ PR0.K/F_ PR0.K/F_ PR0.K/F_ PR0.K/F_ PU G TMSNS V PQ N00 MING (,,,) PR0.K/F_ TMSNS TMSNS TMSNS TMSNS VTRIG SEL OT PR0 K/F_ P 0.U/0V/XR_ TMSNS OT TMSNS OT PR0 *0_S SHN# (,,,) 0 TMSNS P OT PR *0_S PR 0K/NT/THINKING_ For PU PR0 0K/NT/THINKING_ For 0.V PR 0K/NT/THINKING_ For.V PR 0K/NT/THINKING_ For.0V PR E@0K/NT/THINKING_ PR I@0K/NT/THINKING_ For V_GFX PR 0K/NT/THINKING_ For VORE PR 0K/NT/THINKING_ For V & V_S PR 0K/NT/THINKING_ For V PR PR *0_S *0_S.Level Environment-related Substances Should Never be Used. Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev V..Recycled Resin and oated Wire should be procured from Green Partners. ate: Tuesday, pril 0, 0 Sheet of

33 E PL V *Short_ V PQ V PGH PL PQ PR *Short_ 0_ V PIM/IMT0 P P PR PN 0K_ SMJ--F UZV P PR 0.U/0V/XR_ 0K_ P PQ 0.U/0V/XR_ PR P K_ N00K/MN0K- P 0.U/0V/XR_ S-0-0L PL 0.0U/0V/XR_ *Short_ P0 PR PQ *UZSV PL 0K_ TEU *Short_ - V_RT PR 0K/F_ V_RT -UL_IN -VOFF () -VOFF P P Protection ircuit PR 0.U/0V/XR_ *PZ. V_RT PQ PR M_ PIM/IMT0 V P -VOFF () 0.U/0V/XR_ (,) /- 0K/F_ P 0.U/V/XR_ P PR P SW00PT P 0.U/V/XR_ *00K_ TSFU 0.U/0V/XR_ P P PQ 0.U/0V/XR_ PR K_.U/.V/XR_ SSMK0FU -UL_IN PR P K/F_ P PU P PR PU PU PR PZ. 0.U/0V/XR_ 0.U/0V/XR_ 00K/F_ TSFU TSFU 0K_ PR M_ PQ N00W -SYS_PRS PQ0- HNK0FU V_RT Separate adapter OVP from UL circuit OVP for VES P U/0V/XR_ V PR K/_ PR.K/_ PU HFV IN V LY PGOO PR 00K/F_ V PR 00K/F_ P 0.0U/0V/XR_ P UZS. -VOFF () V_GFX PR 0K/F_.0V PR 0K/F_ VGPU_ORE.V_SUS V_ORE PR 0K/F_ PR 0K/F_ PR 0K/F_ VPU PR0 0K/F_ V_S PR0 0K/F_ LO T P MZ000ML PR0.K/F_ PR0.K/_ V N.I PR0 *K/_ P STW PQ0- HNK0FU PR M_ PQ N00 PR 0K OVP _OVP PQ N00 PROTET P P STW 000P/0V/XR/0%_ P STW V PQ- P HNK0FU T STW () TT_I P MMPZPT (V-%) T P SO-T0 P ulamp0 P0 P/0V/NPO_ PR _ P ulamp0 P P/0V/NPO_ PR _ PR 0K_ VPU P 0.U/0V/XR_ P ulamp0 P ulamp0 PR 0K/F_ PN EY-00-L P 0.U/0V/XR_ PR 0K/F_ P 0.U/0V/XR_ PR 0K/F_ P 0.U/0V/XR_ PR 0K/F_ TTERY ONNETOR P0 0.U/0V/XR_ PR 0K/F_ P 0.U/0V/XR_ PR0.K/F_ THERML PROTET FOR PQ THINKING P 0.U/0V/XR_ PR0.K/F_ P 0.U/0V/XR_ PR 0/PT/THINKIG_ PR0 0.K/_ P 0U/.V/XR/0%_ PR0 *.K/_ *SW00PT P *U/0V/XR_ P PR K_ P PZ. PR 00K/F_ P 0.U/0V/XR_ PU G V OUT P *0.U/0V/XR_ N PQ PR 0K/F_ PR 00K/F_ SF P0 0.U/V/XR_ -UL_IN PQ- HNK0FU () MT_T () MLK_T PR0 () T_PRS# K_ PR K_ -SYS_PRS.Level Environment-related Substances Should Never be Used. Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev T IN/ IN/UL.Recycled Resin and oated Wire should be procured from Green Partners. ate: Sunday, pril 0, 0 Sheet of E

34 V P PS00 P 0.U/V/YV_ PR 0.0/0/%/W PR PR P SIP- PR 0/F_ SIN- P PR 0/F_ P 0.U/V/YV_ K_ PGH PQ 0K/F_ PQ TEU PR 0K/F_ P 0.U/0V/XR_ /- (,) T (,,,,,) RUN_ON PQ PIM/IMT0 PQ PIM/IMT0 () HGEN# VPU (0,,) (0,,) PR0 *0K_ PR *0K/F_ MT MLK PR S G P0 0.U/0V/XR_ TP *0_S PQ *O0 0 -SIP 0 N SSP VSM S SL P 0.U/V/XR_ -SIN SSN -V -V V -Vp VP OOT UGTE PHSE P U/0V/XR_ PR._ P U/0V/XR_ -OOT -H -LX P *R00-0 PR._ P 0.U/V/XR_ PR 0K/F_ PL *Short_ P 0U/V/XR/0 PQ O PL PR0 UH-MSRI-0L-0M /0/%/W -LX P P PR 0.K/F_ T PR0 00K/F_ MTV MTV () P 0.0U/V/XR_ V PR.K/_ SW00PT P SW00PT P dapter UVP Setting PR /F_ PR.K/_ OK PR OK IN -L -SOP PR 0/F_ SOP VREF IN P0 0.U/0V/XR_ -VREF P P VREF -SON 0.0U/V/XR_ *0.U/0V/XR_ SON PR 0/F_ -IOMP PR P00 0.0U/0V/XR_ IOMP N P./F_ P0 TP U/V/XR_ -N- *0.0U/0V/XR_ OK IN N VOMP ISLHRTZ LGTE P VF 0 0_ -F PR 00/F_ PR._ P 000P/0V/XR/0%_ SOP- SON- P 0U/V/XS/0 P 0U/V/XS/0 P 0U/V/XS/0 N IM N V PR 0K/F_ PR *0/short_ P0 0.0U/0V/XR_ P0 *000P/0V/XR/0%_ PU0 ISENS_IN () PR K_ PR 0K_ V PR 0K_ PR 0K_ P U/V/XR_ dapter UVP PR 0K/F_ VPU PR 0K/F_ OK -VOFF () IN (,) P0 0.0U/V/XR_ PR 0K_ PQ N00W PQ N00W.Level Environment-related Substances Should Never be Used. Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev HRGER(ISL).Recycled Resin and oated Wire should be procured from Green Partners. ate: Tuesday, pril 0, 0 Sheet of

35 (000m) (0m) (0m) (.) (0m) (0m) (0m) 00 V,V,V U/./00.Level Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. Nvidia / Tuesday, pril 0, 0 Huron River Size ocument Number Rev ate: Sheet of Quanta omputer Inc. PROJET : PRG_RXN_ PRG_RXP_ PRG_RXP_ PRG_RXN_ PRG_RXP_.0_NVII_PLLV PRG_RXP_ PRG_RXN_ PRG_RXN0_ PRG_RXP_ PRG_RXN_ PRG_RXP_ PRG_RXP_ PRG_RXP_ PRG_RXP_ PRG_RXP0_ PRG_RXP_ PRG_RXN_ PRG_RXN0_ PRG_RXP_ PRG_RXP_ PRG_RXN_ PRG_RXN_ PRG_RXP0_ PRG_RXN_ V_NVII_PEX_SV PRG_RXN_ Nvidia_PEX_RST# PRG_RXN_ PRG_RXN_ PRG_RXN_ PRG_RXN_ PRG_RXN_ PRG_RXP_ PRG_RXP_ PEX_LKREQ#.0V_NVII_IFP_PLLV LK_PIE_VGN (0) LK_PIE_VGP (0) PLTRST_IS# (0) PEG_RXP () PEG_RXN () PEG_RXP () PEG_RXN () PEG_RXN () PEG_RXP () PEG_RXP () PEG_RXN () PEG_RXP () PEG_RXN () PEG_RXP0 () PEG_RXN0 () PEG_RXN () PEG_RXP () PEG_RXP () PEG_RXN () PEG_RXN () PEG_RXP () PEG_RXP () PEG_RXN () PEG_RXP () PEG_RXN () PEG_RXN () PEG_RXP () PEG_RXP () PEG_RXN () PEG_RXP () PEG_RXN () PEG_RXP () PEG_RXN () PEG_RXN0 () PEG_RXP0 () PEG_TXN () PEG_TXP () PEG_TXP () PEG_TXN () PEG_TXN () PEG_TXP () PEG_TXN () PEG_TXP () PEG_TXP () PEG_TXN () PEG_TXN0 () PEG_TXP0 () PEG_TXP () PEG_TXN () PEG_TXN () PEG_TXP () PEG_TXP0 () PEG_TXN () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXN () PEG_TXN () PEG_TXP () PEG_TXN () PEG_TXN () PEG_TXP () PEG_TXN () PEG_TXP () PEG_TXN0 () PEG_TXP () PEG_TXN () N_ROUT () N_ROUT- () N_ROUT () N_ROUT- () N_ROUT0 () N_ROUT0- () N_RLK0 () N_RLK0- () PIE_LKREQ_PEG# (0) V V V.0V.0V.V.0V VGPU_ORE VGPU_ORE V E@U/.V/XR_ V E@0.U/0V/XR_ V E@U/.V/XR_ V E@0.U/0V/XR_ V E@.U/.V/XR_ V E@0.U/0V/XR_ V E@.U/.V/XR_ V E@0.U/0V/XR_ V E@U/.V/XR_ V E@0.0U/0V/XR_ V E@0.U/0V/XR_ V E@0.U/0V/XR_ VR *E@0_S V0 E@0.U/0V/XR_ V E@U/.V/XR_ V E@0.U/0V/XR_ V E@U/.V/XR_ V E@0.U/0V/XR_ V E@0.U/0V/XR_ V E@0.0U_ PRT OF Power P I - E X P R E S S I N T E R F E lock VU E@NM-GS F0 E E F G G F E E F G G F E E F G G F E 0 E F 0 G G F E E F G F G G E E F E E F G E F G J0 J J L M M M N N N N N N N N N P P P P P P P R R R R R R R R T T T U J E F F G0 U W0 W W W W W W W E E E G PEX_RST# PEX_TSTLK_OUT PEX_TSTLK_OUT# PEX_REFLK PEX_REFLK# PEX_TX0P PEX_TX0N PEX_RX0P PEX_RX0N PEX_TXP PEX_TXN PEX_RXP PEX_RXN PEX_TXP PEX_TXN PEX_RXP PEX_RXN PEX_TXP PEX_TXN PEX_RXP PEX_RXN PEX_TXP PEX_TXN PEX_RXP PEX_RXN PEX_TXP PEX_TXN PEX_RXP PEX_RXN PEX_TXN PEX_RXP PEX_RXN PEX_TXP PEX_TXN PEX_RXP PEX_RXN PEX_TXP PEX_TXN PEX_RXP PEX_RXN PEX_TXP PEX_TXN PEX_RXP PEX_RXN PEX_TX0P PEX_TX0N PEX_RX0P PEX_RX0N PEX_TXP PEX_TXN PEX_RXP PEX_RXN PEX_TXP PEX_TXN PEX_RXP PEX_RXN PEX_TXP PEX_TXN PEX_RXP PEX_RXN PEX_TXP PEX_TXN PEX_RXP PEX_RXN PEX_TXP PEX_TXN PEX_RXP PEX_RXN PEX_TXP PEX_IOV_0 PEX_IOV_0 PEX_IOV_0 PEX_IOV_0 PEX_IOV_0 PEX_IOV_0 PEX_IOVQ_0 PEX_IOVQ_0 PEX_IOVQ_0 PEX_IOVQ_0 PEX_IOVQ_0 PEX_IOVQ_0 PEX_IOVQ_0 PEX_IOVQ_0 PEX_IOVQ_0 PEX_IOVQ_0 PEX_IOVQ_ PEX_IOVQ_ V_0 V_0 V_0 V_0 V_0 V_0 V_0 V_0 V_0 V_ V_ V_ V_ V_ V_ V_ V_ V_ V_0 V_ V_ V_ V_ V_ V_ V_ V_ V_ V_0 V_ V_ V_ V_ V_ V_ V_0 V_0 V_0 V_0 V_0 V_0 V_0 PEX_PLLV PEX_TERMP V_ V_ V_ V_0 V_ V_ V_ V_SENSE _SENSE PEX_LKREQ# V_SENSE _SENSE PEX_SV_V V E@.U/.V/XR_ V0 E@0.U/0V/XR_ V0 E@0.U/0V/XR_ V E@0.U/0V/XR_ Part of VUE E@NM-GS V V Y W V W W W V V IFP_TX_N IFP_TX IFP_TX0_N IFP_TX0 IFP_TX_N IFP_TX IFP_TX_N IFP_TX IFP_TX_N IFP_TX IFP_TX_N IFP_TX IFP_TX_N IFP_TX IFP_TX_N IFP_TX IFP_TX_N IFP_TX IFP_TX_N IFP_TX IFP_PLLV IFP_RSET IFP_IOV IFP_IOV V E@0.U/0V/XR_ V E@0.U/0V/XR_ V0 E@0.U/0V/XR_ V E@0.U/0V/XR_ V E@U/.V/XR_ V E@0U/.V/XR_ VR E@0K/F_ V E@0.U/0V/XR_ V E@0.0U_ V E@0.U/0V/XR_ V E@.U/.V/XR_ VL *E@0_S V0 E@0.U/0V/XR_ V0 E@0.U/0V/XR_ V E@.U/.V/XR_ V0 E@0.U/0V/XR_ V E@.U/.V/XR_ V E@0.U/0V/XR_ V E@0.U/0V/XR_ V0 E@0.U/0V/XR_ V E@0.U/0V/XR_ Part of VU E@NM-GS 0 E E E E E E0 E E H H J J J K K L L L L L L L L L M M M M M P P P P P P T T T T T U U U U U U U U U U U V V W W W Y Y Y Y 0 F F F F F F F0 F F F J N N N PGOO V E@0.U/0V/XR_ V E@0.U/0V/XR_ V E@0.U/0V/XR_ V E@0.0U_ VR0 *E@0_S V E@U/.V/XR_ V0 E@0.U/0V/XR_ VL *E@0_S V E@U/.V/XR_ VR E@0K/F_ V E@0.U/0V/XR_ V E@0.U/0V/XR_ V E@U/.V/XR_ V E@0.U/0V/XR_ V E@U/.V/XR_ V E@0.0U/0V/XR_ V E@.U/.V/XR_ V E@0.U/0V/XR_ V E@0.U/0V/XR_ V E@.U/.V/XR_ VR0 *E@K_F_ V0 E@0U/.V/XR_ VR E@.K_ V E@.U/.V/XR_ V E@0.U/0V/XR_ V E@0.U/0V/XR_ V E@0.0U/0V/XR_ V E@0.U/0V/XR_ V E@0.U/0V/XR_ V0 E@.U/.V/XR_ V E@0.0U_ V E@U/.V/XR_ V E@0.0U_ V E@U/.V/XR_ VR *E@00_J_ V0 E@0.U/0V/XR_ V0 E@0.U/0V/XR_ V E@.U/.V/XR_ V E@U/.V/XR_ V E@0.U/0V/XR_ V E@0.U/0V/XR_ V E@0U/.V/XR_ V E@0.0U_

36 NP-GV External VG_ORE Voltage Setting: GFX_ORE_NTRL 0 0 NM-GS Logical Strap it Mapping Resister Value Pull to V Pull to K 0K K 0K K 0K K K ROM_SI STRP0 STRP STRP NM Strap it efine Straps ROM_SO ROM_SLK STRP STRP for device I GFX_ORE_NTRL0 External VG_ORE Voltage Setting: GFX_ORE_NTRL 0 0 it F[] PI_EVI[] RMFG[] it PI_EVI[] PI_EVI[] PI_EVI[] GIO_PFG [] USER[] F[] SU_VENOR RMFG[] GIO_PFG [] USER[] SM_LT_R RMFG[] USER[] For NP VR pull high.k VR N VR Pull down.k [] SOR_EXPOSE SOR_EXPOSE SOR_EXPOSE RESERVE 0.0V 0 GFX_ORE_NTRL0 it RESERVE VG_ORE.00V 0.V 0.V VG_ORE 0.0V 0.00V 0.V 0.V PI_EVI[] GIO_PFG PR=.K/F_ PR=0_ PR0=.K/F_ PR=.K/F_ PR=.K/F_ PR=0_ PR0=.K/F_ PR=.0K/F_ PEX_PLL_EN_ TERM RMFG[0] PI_EVI[0] GIO_PFG [0] USER[0] SOR0_EXPOSE PIE_MX_SPEE P_PLL_V () EXT_EILK V () EXT_EIT / hange NM and NP device I V V () EXT_LK () EXT_T () MLK_V () MT_V VU PRT OF Integrated N GPIO[0] TMS () EXT_HMI_HP_Q G VI&HMI/P GPIO[] () EXT_VRY_L IFP GPIO[] () EXT_LVS_VEN M G GPIO[] IW_S/IFP_UXN EXT_HMI_S () () EXT_LVS_LKEN M GPIO[] G IW_SL/IFP_UX EXT_HMI_SL () EXT_HMI_TXN_ () GFX_ORE_NTRL0 K J V E@0.U/0V/XR_ GPIO[] TX/IFP_LN INT_HMI_TXN (,) EXT_HMI_TXP_ () GFX_ORE_NTRL K V H V E@0.U/0V/XR_ GPIO[] TX/IFP_L INT_HMI_TXP (,) J K EXT_HMI_TXN0_ V E@0.U/0V/XR_ INT_HMI_TXN0 (,) VR E@0K/F_ OT#_ GPIO[] I TX0/IFP_LN EXT_HMI_TXP0_ V L V E@0.U/0V/XR_ INT_HMI_TXP0 (,) VR E@0K/F_ NV_LERT# GPIO[] General TX0/IFP_L EXT_HMI_TXN_ V M M V E@0.U/0V/XR_ GPIO[] Purpose TX/IFP_LN INT_HMI_TXN (,) M EXT_HMI_TXP_ V E@0.U/0V/XR_ GPIO[0] I/O E TX/IFP_L INT_HMI_TXP (,) N EXT_HMI_TXN_ V00 E@0.U/0V/XR_ INT_HMI_TXN (,) VR E@0K/F_ GPIO[] TX/IFP_L0N EXT_HMI_TXP_ V J O P V0 E@0.U/0V/XR_ GPIO[] TX/IFP_L0 INT_HMI_TXP (,) J GPIO[] K P (0m) V_IFP_PLLV VR *E@0_S GPIO[] IFP_PLLV V F R VR E@K/F_ V E@U/.V/XR_ GPIO[]/IFPE_HP & IFP_RSET G J (m) GPIO[] IFP_IOV.0V G V E@0.U/0V/XR_ V E@.U/.V/XR_ GPIO[] F IFP V E@U/.V/XR_ V E@0.U/0V/XR_ GPIO[] F M GPIO[]/IFP_HP IX_S/IFP_UXN U GPIO[0] IX_SL/IFP_UX GPIO[] L TX/IFP_LN VL E@0ohm (ESR=0.0) TX/IFP_L.0V T TX0/IFP_LN VT V0 E@U/.V/XR_ THERMN Thermal I TX0/IFP_L V E@0.U/0V/XR_ iode TX/IFP_LN VT M E THERMP TX/IFP_L F V E@.U/.V/XR_ TX/IFP_L0N E F TX/IFP_L0.0V_NVII_PLLV (0m) K N V_IFP_PLLV V0 E@U/.V/XR_ (m) PLLV IFP_PLLV K I M V E@.U/.V/XR_ (m) VI_PLLV IFP_RSET L H V E@0.U/0V/XR_ SP_PLLV IFPE_IOV VR E@0K/F_ V E@P_ VR E@0K/F_ PLL & IFPE G XTL_SSIN XTL IY_S/IFPE_UXN F IY_SL/IFPE_UX 0 E XTL_IN TX/IFPE_LN E E@MHZ/0PF/0PPM VR E@0K/F_ TX/IFPE_L E XTL_OUTUFF TX0/IFPE_LN E0 VY XTL_OUT TX0/IFPE_L V E@P_ TX/IFPE_LN TX/IFPE_L VR E@0K/F_ TX/IFPE_L0N F JTG_TK TX/IFPE_L0 VT F JTG_TMS G Test VT VR E@0K/F_ / hange V,V from P to P. JTG_TI IFPE_PLLV VT E F VR E@K/F_ JTG_TO IFPE_RSET G JTG_TRST# / RT E EXT_RT_RE EXT_RT_RE VR E@0/F RE EXT_RT_RE () E EXT_RT_GRE EXT_RT_GRE VR E@0/F GREEN EXT_RT_GRE () EXT_RT_LU EXT_RT_LU VR E@0/F LUE EXT_RT_LU () 0 VR E@K/F_ ROM_S# 0 ROM_SI ROM _HSYN EXT_RT_HSYN () VR *E@0K/F_ 0 ROM_SO _VSYN EXT_RT_VSYN () VR E@0K/F_ VR E@.K/F_ ROM_SLK (0m) V_NVII V V _V G VR *E@0_S V V E@.U/.V/XR_ VR *E@.K/F_ F V E@0.U/0V/XR_ V E@U/.V/XR VREF V E@00P/V/XR_ E VR E@/F_ V0 E@0P/0V/XR RSET it 0 V E@0.U/0V/XR_ VG_EVIE VR VR VR VR VR VR VR VR VR E@.K/F_ E@.K/F_ E@.K/F_ E@.K/F_ E@.K/F_ E@.K/F_ E@0K/F_ E@0.K/F_ E@0.K/F_ R T R R T T F F0 I_SL I_S I_SL I_S I_SL I_S IS_SL IS_S STRP0 STRP STRP I STRP_REF0_ STRP_REF_ MIS _RE _GREEN _LUE _HSYN _VSYN _V _VREF _RSET STRP UFRST# STRP TESTMOE T T R U U W R V T STRP_REF_ W RFU Y RFU RFU N RFU N N F VR0 VR VR VR VR VR VR VR VR E@0K/F_ *E@0K/F_ E@0.K/F_ E@0K/F_ *E@0K/F_ *E@0_ *E@0K/F_ E@K/F_ E@0K/F_ V V For NM VR pull high.k VR N VR Pull down 0K E@NM-GS VRM apacity VRM Vender I VR P/N P/N NM Mx R Mx R Hynix 000 PK Samsung 00 P0K Hynix Samsung 00 0 PK PK HTQGFR- KWGG- HTQGFR- KWG-H Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev.Level Environment-related Substances Should Never be Used. Nvidia /.Recycled Resin and oated Wire should be procured from Green Partners. ate: Tuesday, pril 0, 0 Sheet of

37 Place near VRM side (0m) Place near U00 Should be 0 Ohms -% Place near U00 (00m) (00m) Should be 0 Ohms -% own Side VRM TOP/OT OT TOP need find ead 0 ohm@00mhz ESR=0.0.Level Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. VRM / Monday, February, 0 Huron River Size ocument Number Rev ate: Sheet of Quanta omputer Inc. PROJET : F_LK F_LK0 F_QM0 F_QM F_QM F_QM F_QS_RN0 F_QS_RN F_QS_RN F_QS_RN F_QS_WP0 F_QS_WP F_QS_WP F_QS_WP F_M F_M F_M F_M F_M F_M F_M F_M0 F_M F_M F_M F_M F_M F_M F_M F_M0 F_M F_M F_M F_M F_M F_M F_M0 F_M F_M F_M F_M F_PLLV F_LK0 F_LK0# F_PLLV F_Q F_Q0 F_Q F_Q F_Q0 F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q0 F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q0 F_Q F_Q F_Q F_Q F_Q F_Q F_PLLV F_LK0# F_LK# F_LK F_M0 F_LK# F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M0 F_M0 F_M F_M F_M F_M F_M F_M F_M0 F_M0 F_M F_M F_M0 F_M0 F_M F_M F_M0 F_M0 F_LK0 F_LK0# F_LK0 F_LK0# F_M F_M0 F_M0 F_Q F_Q F_Q F_Q F_Q0 F_Q F_Q F_Q F_QS_WP0 F_QS_RN0 F_QS_WP F_QS_RN F_QM0 F_QM F_Q F_Q F_Q F_Q0 F_Q F_Q F_Q F_Q F_QS_WP F_QM F_QS_RN F_QS_WP F_QM F_QS_RN F_Q F_Q F_Q F_Q F_Q0 F_Q F_Q F_Q0 F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_QS_WP () F_QS_WP () F_QS_WP () F_QS_WP () F_QS_RN () F_QS_RN () F_QS_RN () F_QS_RN () F_QM () F_QM () F_QM () F_QM () F_M () F_M () F_M () F_M () F_M () F_M () F_M0 () F_M () F_M () F_M () F_M () F_M () F_M () F_M () F_M0 () F_M () F_M () F_M () F_M () F_M () F_Q () F_Q () F_Q () F_Q () F_Q () F_Q () F_Q () F_Q () F_Q0 () F_Q () F_Q () F_Q () F_Q () F_Q () F_Q () F_Q () F_Q () F_Q () F_Q0 () F_Q () F_Q () F_Q () F_Q () F_Q () F_Q () F_Q () F_Q () F_Q () F_Q0 () F_Q () F_Q () F_Q () F_LK () F_LK# () F_M () F_M () F_M () F_M () F_M () F_M0 () F_VREF0 F_VREF0 F_VREF0.0V.V.V.V.V.V.V.V.V.V V E@0.U/0V/XR_ V E@U/.V/XR_ V E@U/.V/XR_ VR E@0K/F_ V0 E@U/.V/XR_ V E@0.U/0V/XR_ V E@U/.V/XR_ V E@0.0U_ V E@U/.V/XR_ V E@0U/.V/XR_ V E@U/.V/XR_ V E@0U/.V/XR_ V E@0.0U_ V *0U/V//ESR= V E@U/.V/XR_ V E@.U/.V/XR_ V E@0.0U_ V0 E@0.U/0V/XR_ VR E@/F_ Part of MEMORY INTERFE write strobe read strobe VU E@NM-GS E E E F 0 F0 F E U V V R T R P P W W W V W W W V R V V R T N N F J F M N M K J J G G J M K G L K K G K H M H F J G G T T E T T E R Y R F F N N M R T E F F F F M K F F F H H J J J J L L L M N U Y J L F_Q0 F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q0 F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q0 F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q0 F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q0 F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q0 F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q F_Q0 F_Q F_Q F_Q F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M0 F_M F_M F_M F_M F_M0 F_M F_QM0 F_QM F_QM F_QM F_QM F_QM F_QM F_QM F_QS_WP0 F_QS_WP F_QS_WP F_QS_WP F_QS_WP F_QS_WP F_QS_WP F_QS_WP F_QS_RN0 F_QS_RN F_QS_RN F_QS_RN F_QS_RN F_QS_RN F_QS_RN F_QS_RN F_LK0 F_LK0# F_LK F_LK# FL_P_VQ FL_PU_ FL_TERM_ F_EUG0 F_PLLV F_LLV F_VREF FVQ_0 FVQ_0 FVQ_0 FVQ_0 FVQ_0 FVQ_0 FVQ_0 FVQ_0 FVQ_0 FVQ_0 F_M F_M0 FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_0 FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ F_PLLV F_M F_M0 V E@0U/.V/XR_ VR E@_ V E@0.U/0V/XR_ V E@0U/.V/XR_ VR E@0./F_ V E@0.U/0V/XR_ V0 E@0.U/0V/XR_ V E@0U/.V/XR_ VR E@_ V E@U/.V/XR_ V E@U/.V/XR_ V E@0.U/0V/XR_ VR E@0K/F_ VR E@0./F_ V E@0.0U_ VR0 E@0K/F_ VT V *0U/V//ESR= V E@0.U/0V/XR_ 00-LL SRM R VU E@VRM _R L J K L K J K M N P N P P R R T R L R E F F F H H G H E J L J E L T F E E E G F F G H H G M G G K N P K N J K T T M M H L N N R R J M M P P T T WE RS S S KE K K QSU 0 0/P QL0 QL QL QL QL QL QL QL VSSQ# VSS# VSS#E VSS# N#J V# V# VQ# VQ# VQ# VQ# N#L N#J VQ#E ZQ RESET QSL MU ML VSSQ# VSSQ# VSSQ# VSSQ#E QSU VSSQ#E QSL VQ#F VSSQ#F VSSQ#G VQ#H VQ#H VSSQ#G VREF VSS#G V#G OT 0 V#K / VSS#J V#K QU QU QU QU QU QU QU QU0 VREFQ N#L V#N V#N V#R V#R VSS#J VSS#M VSS#M VSS#P VSS#P VSS#T VSS#T VQ# V E@U/.V/XR_ VR E@0./F_ V *0U/V//ESR= VR0 E@K/F_ V E@0.0U_ V E@0.U/0V/XR_ V E@U/.V/XR_ VR E@K/F_ V E@0.U/0V/XR_ V0 E@0U/.V/XR_ VR0 E@/F_ VL E@00R00MHz/F_ 00-LL SRM R VU E@VRM _R L J K L K J K M N P N P P R R T R L R E F F F H H G H E J L J E L T F E E E G F F G H H G M G G K N P K N J K T T M M H L N N R R J M M P P T T WE RS S S KE K K QSU 0 0/P QL0 QL QL QL QL QL QL QL VSSQ# VSS# VSS#E VSS# N#J V# V# VQ# VQ# VQ# VQ# N#L N#J VQ#E ZQ RESET QSL MU ML VSSQ# VSSQ# VSSQ# VSSQ#E QSU VSSQ#E QSL VQ#F VSSQ#F VSSQ#G VQ#H VQ#H VSSQ#G VREF VSS#G V#G OT 0 V#K / VSS#J V#K QU QU QU QU QU QU QU QU0 VREFQ N#L V#N V#N V#R V#R VSS#J VSS#M VSS#M VSS#P VSS#P VSS#T VSS#T VQ# V E@0U/.V/XR_ V E@U/.V/XR_ V0 E@0.U/0V/XR_ V E@0.0U_ VT V E@0U/.V/XR_ V E@U/.V/XR_ V0 E@0.U/0V/XR_ V E@0.U/0V/XR_ V E@U/.V/XR_ V0 E@0.U/0V/XR_ V E@0U/.V/XR_ V E@0.0U_

38 F_M VR Should be 0 Ohms -% VR E@/F_ J L J L E@0K/F_ TOP 00-LL SRM R E@VRM _R E E F G G Up Side VRM TOP/OT F_VREF VU F_VREF VU V E@0.0U_ M F_Q F_Q () V E@0.0U_ VREF QL0 E H F_Q V E@0.0U_ F_Q VREFQ QL F F_Q () M F_Q () F_Q V E@0.0U_ VREF QL0 E F_Q F_M QL F F_Q () H F_Q0 VREFQ QL F F_Q () F_Q () F_M N F_M 0 QL F F_Q0 () F_Q F_M QL F F_Q () F_Q0 () F_M P F_M0 QL H F_Q () N F_Q F_M 0 QL F F_Q0 () F_Q () F_M0 P F_M QL H F_Q () P F_Q F_M0 QL H F_Q () F_Q () F_M N F_M QL G F_Q () P F_Q F_M QL H F_Q () F_Q () F_M P F_M QL H F_Q () N F_M QL G F_Q () F_Q () F_M P F_M P F_M QL H F_Q () () F_M R F_M P F_Q F_M () F_M R F_M QU0 F_Q () R F_Q F_M F_Q () F_M T F_M QU F_Q () R F_Q F_M QU0 F_Q () F_Q () F_M R F_M QU F_Q () T F_Q () F_Q F_M QU F_Q () F_M L F_Q () F_M 0/P QU F_Q () R F_Q F_M QU F_Q () F_M R F_Q () F_M QU F_Q () L F_Q F_M 0/P QU F_Q () F_M N F_Q () F_Q () F_M / QU R F_Q0 F_M QU F_Q () F_M T F_Q0 () F_Q () F_M QU N F_Q F_M / QU F_Q () F_M T F_Q () F_Q () F_M QU T F_M QU F_Q () F_M M T.V F_Q () F_M QU M.V F_M () F_M M F_M 0 V# F_M () F_M N F_M0 V# M F_M 0 V# () F_M0 M V#G G N F_M0 V#.V Place near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lace near U00 VSS#M VSS#M M P F_M0 VSS#P VSS#M M.V () F_M0 T RESET VSS#P P P T F_M0 VSS#P VSS#T T RESET VSS#P P L ZQ VSS#T T VSS#T T L ZQ VSS#T T N#J N#L N#J N#L VSSQ# VSSQ# VSSQ# VSSQ# VSSQ#E VSSQ#E VSSQ#F VSSQ#G VSSQ#G F_VREF.V VR E@K/F_ VR E@K/F_ Should be 0 Ohms -% VR E@/F_ J L J L N#J N#L N#J N#L OT 00-LL SRM R E@VRM _R VSSQ# VSSQ# VSSQ# VSSQ# VSSQ#E VSSQ#E VSSQ#F VSSQ#G VSSQ#G E E F G G V V V V V0 V V V V V V V V E E@0U/.V/XR_ E@0U/.V/XR_ E@0U/.V/XR_ E@0U/.V/XR_ E@U/.V/XR_ E@U/.V/XR_ E@U/.V/XR_ E@U/.V/XR_ E@U/.V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ E@0.U/0V/XR_ F_M VR E@0K/F_.Level Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. Quanta omputer Inc. PROJET : Huron River Size ocument Number Rev VRM / ate: Monday, February, 0 Sheet of E

39 US PORT rchitecture for EVT PORT 0 IO Port PORT IO Port PORT IO Port PORT N/ PORT IO Port PORT N/ PORT N/ PORT N/ PORT N/ PORT amera PORT 0 N/ PORT N/ PORT WiMax PORT luetooth PIE US PORT WLN Port PORT N/ PORT N/ PORT R REER PORT N/ PORT GLN(RTLE) PORT N/ PORT N/ SM US MLK/MT ISLHRTZ NVII X 00 X ST US PORT 0 H PORT N/ PORT N/ PORT O PORT N/ oard I0 (NM/NP) NM NP oard I (VRM Vendor) Samaung Hynix oard I (VRM G/M) G M R Stuff No Stuff R Stuff No Stuff R Stuff No Stuff R No Stuff Stuff R No Stuff Stuff R No Stuff Stuff