32Mx72 bits PC100 SDRAM Registered DIMM based on 16Mx8 SDRAM with LVTTL, 4 banks & 4K Refresh GMM27333230ANTG Description The GMM27333230ANTG is a 32M x 72bits Synchronous Dynamic RAM MODULE which is assembled 18 pieces of 16M x 8bits Synchronous DRAMs in 54 pin TSOP II, 2 pieces of 16 bits Register in 48 pin TSSOP, one clock distribution PLL in 24 pin SOP and one 2048 bit EEPROM in 8 pin TSSOP package mounted on a 168 pin printed circuit board with decoupling capacitors. The GMM27333230ANTG is optimized for application to the systems which are required high density and large capacity such as main memory of the computers and an image memory systems, and to the others which are requested compact size. The GMM27333230ANTG provides common data inputs and outputs. GMM27333230ANTG (Double Side) Features * PC100/PC66 Compatible -8(125MHz) -7K(PC100,2-2-2)/-7J(PC100,3-2-2)/-10K(PC66) * 3.3V +/- 0.3V Power supply * Maximum Clock frequency 100 / 125 MHz * LVTTL Interface * Burst read/write operation and burst read/ single write operation capability * Programmable burst length ; 1, 2, 4, 8, Full page * Programmable burst sequence Sequential / Interleave * Full Page burst length capability Sequential burst Burst stop capability * Programmable CAS Latency ; 2, 3 * CKE power down mode * Input / Output data masking * 4096 Refresh Cycles / 64ms * Auto refresh / Self refresh Capability * Serial Presence Detect with EEPROM Pin Name CK0, 1, 2, 3 CKE0,1 S0~3 RAS CAS WE A0 ~ A11 BA0,1 REGE DQ0 ~ 63 CB0 ~ 7 DQMB0 ~ 7 VCC VSS NC VREF SDA SCL SA0 ~ 2 WP DU Clock input Clock Enable Chip Select Row Address Strobe Column Address Strobe Write Enable Address input Bank Address input Register Enable Data input / output Check Bits Data input / output Mask Power for internal circuit Ground for internal circuit No Connect Power Supply for Reference Serial Data input/ output Serial Clock Address in EEPROM Write Protect for SPD Don't Use This document is a general product description and is subject to change without notice. Hyundai Electronics does not assume any responsibility for use of circuits described. No patent licenses are implied. Rev. 1.1/Dec.99 © 1999 Hyundai MicroElectronics GMM27333230ANTG Pin Configuration Pin Symbol Pin Symbol Pin Symbol Pin Symbol 1 VSS 29 DQMB1 57 DQ18 85 VSS 2 DQ0 30 S0 58 DQ19 86 3 DQ1 31 DU 59 VCC 4 DQ2 32 VSS 60 DQ20 5 DQ3 33 A0 61 NC 6 VCC 34 A2 62 *VREF, NC 90 7 DQ4 35 A4 63 CKE1 8 DQ5 36 A6 64 VSS 9 DQ6 37 A8 65 10 DQ7 38 A10/AP 11 DQ8 39 12 VSS 40 13 DQ9 14 Pin Symbol Pin Symbol 113 DQMB5 141 DQ50 DQ32 114 S1 142 DQ51 87 DQ33 115 RAS 143 VCC 88 DQ34 116 VSS 144 DQ52 89 DQ35 117 A1 145 NC VCC 118 A3 146 *VREF, NC 91 DQ36 119 A5 147 REGE 92 DQ37 120 A7 148 VSS DQ21 93 DQ38 121 A9 149 DQ53 66 DQ22 94 DQ39 122 BA0 150 DQ54 BA1 67 DQ23 95 DQ40 123 A11 151 DQ55 VCC 68 VSS 96 VSS 124 VCC 152 VSS 41 VCC 69 DQ24 97 DQ41 125 CK1 153 DQ56 DQ10 42 CK0 70 DQ25 98 DQ42 126 *A12 154 DQ57 15 DQ11 43 VSS 71 DQ26 99 DQ43 127 VSS 155 DQ58 16 DQ12 44 DU 72 DQ27 100 DQ44 128 CKE0 156 DQ59 17 DQ13 45 S2 73 VCC 101 DQ45 129 S3 157 VCC 18 VCC 46 DQMB2 74 DQ28 102 VCC 130 DQMB6 158 DQ60 19 DQ14 47 DQMB3 75 DQ29 103 DQ46 131 DQMB7 159 DQ61 20 DQ15 48 DU 76 DQ30 104 DQ47 132 *A13 160 DQ62 21 CB0 49 VCC 77 DQ31 105 CB4 133 VCC 161 DQ63 22 CB1 50 NC 78 VSS 106 CB5 134 NC 162 VSS 23 VSS 51 NC 79 CK2 107 VSS 135 NC 163 CK3 24 NC 52 CB2 80 NC 108 NC 136 CB6 164 NC 25 NC 53 CB3 81 WP 109 NC 137 CB7 165 SA0 26 VCC 54 VSS 82 SDA 110 VCC 138 VSS 166 SA1 27 WE 55 DQ16 83 SCL 111 CAS 139 DQ48 167 SA2 28 DQMB0 56 DQ17 84 VCC 112 DQMB4 140 DQ49 168 VCC * These pins are not used in this module Rev. 1.1/Dec.99 2 GMM27333230ANTG Block Diagram S1 S0 DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 DQM DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 DQ 8 DQ 9 DQ 10 DQ 11 DQ 12 DQ 13 DQ 14 DQ 15 DQM DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 CB0 CB1 CB2 CB3 CB4 CB5 CB6 CB7 DQM DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 DQMB0 DQMB1 CS U0 CS U1 CS U2 DQM DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 DQM DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 CS U9 CS DQMB5 U10 DQM DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 DQMB6 U11 S3 DQ 16 DQ 17 DQ 18 DQ 19 DQ 20 DQ 21 DQ 22 DQ 23 DQM DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 DQ 24 DQ 25 DQ 26 DQ 27 DQ 28 DQ 29 DQ 30 DQ 31 DQM DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 DQMB3 CS U3 CS U4 10ohm DQM DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 DQM DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 U12 CS DQM DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 DQ 48 DQ 49 DQ 50 DQ 51 DQ 52 DQ53 DQ 54 DQ 55 DQM DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 DQ 56 DQ 57 DQ 58 DQ 59 DQ 60 DQ 61 DQ 62 DQ 63 DQM DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 U5 CS DQM DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 U6 CS DQM DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 U7 CS DQM DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 CS U14 CS U15 CS U16 CS U17 U0 - U17 WE CAS RAS U0 - U17 U13 U0 - U17 Register CKE0 U0 - U8 CKE1 U9 - U17 S0,1,2,3 U0 - U17 PCK REGE Vcc PLL 10kohm 12pF VCC Rev. 1.1/Dec.99 DQM DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 A0 ~ A11, BA0,1 SCL VSS CS U8 DQMB0~7 CK0 12pF DQ 40 DQ 41 DQ 42 DQ 43 DQ 44 DQ 45 DQ 46 DQ 47 DQMB7 CS 10ohm CK1,2,3 DQM DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 CS S2 DQMB2 DQ 32 DQ 33 DQ 34 DQ 35 DQ 36 DQ 37 DQ 38 DQ 39 DQMB4 U0 ~ U17 Capacitor two 0.0022uF and one 0.22uF per SDRAM Serial PD A0 A1 SDA WP A2 Vss 47kohm U0 ~ U17 SA0 SA1 SA2 3 GMM27333230ANTG Pin Description Pin Name CK0, 1, 2, 3 (input pins) CKE0,1 (input pin) DESCRIPTION CK is the master clock input to this pin. The other input signals are referred at CK rising edge. This pin determines whether or not the next CK is valid. If CKE is High, the next CK rising edge is valid. If CKE is Low, the next CK rising edge is invalid. This pin is used for power-down and clock suspend modes. S0,1,2,3 (input pins) When S is Low, the command input cycle becomes valid. When S is high, all inputs are ignored. However, internal operations (bank active, burst operations, etc.) are held. RAS, CAS and WE (input pins) Although these pin names are the same as those of conventional DRAMs, they function in a different way. These pins define operation commands (read, write, etc.) depending on the combination of their voltage levels. For details, refer to the command operation section. A0 ~ A11 (input pins) Row address (AX0 to AX11) is determined by A0 to A11 level at the bank active command cycle CK rising edge. Column address is determined by A0 to A9 level at the read or write command cycle CK rising edge. And this column address becomes burst access start address. A10 defines the precharge mode. When A10 = High at the precharge command cycle, both banks are precharged. But when A10 = Low at the precharge command cycle, only the bank that is selected by BA0 is precharged. BA0,1 (input pin) BA0,1 are bank select signal. If BA0 is Low and BA1 is High, bank 0 is selected. If BA0 is High and BA1 is Low, bank 1 is selected. If BA0 is Low and BA1 is High, bank 2 is selected. If BA0 is High and BA1 is High, bank 3 is selected. DQ0 ~ DQ63 CB0 ~ CB7 (I/O pins) Data is input and output from these pins. These pins are the same as those of a conventional DRAMs. Data is not latched in the register. DQMB0 ~ DQMB7 (input pins) DQMB controls input/output buffers. -Read operation: If DQMB is High, The output buffer becomes High-Z. If the DQMB is Low, the output buffer becomes Low-Z. -Write operation: If DQMB is High, the previous data is held (the new data is not written). If DQMB is Low, the data is written. VCC (power supply pins) 3.3 V is applied. (VCC is for the internal circuit) VSS (power supply pins) Ground is connected. (VSS is for the internal circuit) REGE NC Rev. 1.1/Dec.99 If REGE input is high, permits the DIMM to operate in `registered mode`. If REGE input is low, permits the DIMM to operate in `buffered mode`. No Connection pins. 4 GMM27333230ANTG Absolute Maximum Ratings Parameter Symbol Value Unit Note Voltage on any pin relative to VSS VT -0.5 to Vcc+0.5 (<= 4.6 (max)) V 1 Supply voltage relative to VSS VCC -0.5 to +4.6 V 1 Short circuit output current IOUT 50 mA PT 1.0 W Operating temperature Topr 0 to +70 C Storage temperature Tstg -55 to +125 C Power dissipation Notes : 1. Respect to VSS Recommended DC Operating Conditions (Ta = 0 to + 70C) Parameter Symbol Min Max Unit Note VCC, VCCQ 3.0 3.6 V 1 VSS, VSSQ 0 0 V Input high voltage VIH 2.0 Vcc + 0.3 V 1, 2 Input low voltage VIL -0.3 0.8 V 1,3 Supply voltage Notes : 1. All voltage referred to VSS. 2. VIH (max) = 5.6V for pulse width <= 3ns 3. VIL (min) = -2.0V for pulse width <= 3ns Registered DIMM Operation 1. All control and address signals are registered on-DIMM register and hence delayed by one cycle in arriving at the SDRAMs. But data is not registered in the register. 2. CAS latency defines the delay from when a READ command is registered on a rising clock edge to when the data from that READ command becomes available at the outputs. Do not confuse DIMM CAS latency with the SDRAM CAS latency which is one clock less. Rev. 1.1/Dec.99 5 GMM27333230ANTG DC Characteristics (Ta = 0 to 70C, VCC, VCCQ = 3.3 V +/- 0.3 V, VSS, VSSQ= 0 V) Parameter -8 - 7K - 7J - 10K Max Max Max Max Symbol Unit Test conditions Notes Burst length= 1 tRC = min CKE = VIL, tCK = 12 ns Operating current ICC1 Standby current in power down ICC2P 40 mA ICC2PS 20 mA CKE=VIL, tCK= Infinity 6 ICC2N 300 mA CKE,CS = VIH, tCK = 12ns 4 ICC2NS 280 mA CKE,CS = VIH, tCK = Infinity 4 1,2,5 2,6 Standby current in power down (input signal stable) Standby current in non power down (CAS Latency=2) Standby current in non power down (input signal stable) 1200 1100 mA 1, 2, 3 5 ICC3P 100 mA CKE = VIL, tCK = 12 ns, DQ = High-Z Active standby current in power down ICC3PS (input signal stable) 85 mA CKE = VIL, tCK = Infinity 1,2,4 2,8 Active standby current in power down ICC3N 550 mA CKE,CS = VIH, tCK = 12 ns, DQ = High-Z Active standby current in non power down ICC3NS (input signal stable) 500 mA CKE,CS = VIH, tCK = Infinity tCK = min Active standby current in non power down Burst operating current ( CL= 2 ) ICC4 1300 1300 1000 1000 mA ( CL= 3 ) ICC4 1400 1300 1300 1300 mA Refresh current ICC5 2300 2300 2200 1900 mA tRC = min 3 Self refresh current ICC6 mA VIH >=VCC - 0.2 VIL <=0.2V 7 Rev. 1.1/Dec.99 40 BL = 4 1,2,3 6 GMM27333230ANTG - 8, - 7K, -7J, -10K Parameter Symbol Unit Test conditions Notes Min Max Input leakage current ILI -1 1 uA 0<=Vin<=VCC Output leakage current ILO -1.5 1.5 uA 0<=Vout <=VCC DQ = disable Output high voltage VOH 2.4 - V IOH = -2 mA Output low voltage VOL - 0.4 V IOL =2 mA Notes : 1. ICC depends on output load condition when the device is selected. ICC (max) is specified at the output open condition. 2. One bank operation. 3. Addresses are changed once per one cycle. 4. Addresses are changed once per two cycles. 5. After Power down mode, CLK operating current. 6. After Power down mode, no CLK operating current. 7. After self refresh mode set, self refresh current. 8. Input signals are VIH or VIL fixed. Capacitance (Ta = 25C, V CC, VCCQ = 3.3V +/- 0.3V) Symbol Parameter Min Max Unit Notes CI1 Input capacitance (A0 ~ A11, BA0,1) - TBD pF 1, 3 CI2 Input capacitance (RAS, CAS, WE, CKE) - TBD pF 1, 3 CI3 Input capacitance (CK0~CK3) - TBD pF 1, 3 CI4 Input capacitance (S0~S3) - TBD pF 1, 3 CI5 Input capacitance (DQMB0 ~ DQMB7) - TBD pF 1, 3 CI/O I/O capacitance (DQ0 ~ 63) - TBD pF 1, 2 ,3 Note :1. Capacitance measured with Boonton Meter or effective capacitance measuring method. 2. DQMB = VIH to disable Dout. 3. This parameter is sampled and not 100% tested. Rev. 1.1/Dec.99 7 GMM27333230ANTG AC Characteristics (Ta = 0 to 70C, VCC, VCCQ = 3.3 V +/- 0.3 V, VSS, VSSQ = 0 V) -8 Parameter System clock cycle time (CL=2) (CL=3) CLK high pulse width CLK low pulse width Access time from CLK (CL=2) (CL=3) Data-out hold time CLK to Data-out low impedance CLK to Data-out high impedance ( CL = 2,3 ) Data-in setup time Data-in hold time Address setup time Address hold time CKE setup time CKE setup time for power down exit CKE hold time Command (CS, RAS, CAS, WE, DQM) setup time Command (CS, RAS, CAS, WE, DQM) hold time Ref/Active to Ref/Active command period Active to Precharge command period Active command to column command (same bank) Precharge to active command period Rev. 1.1/Dec.99 Symbol - 7K - 7J - 10K Min Max Min Max Min Max Min Max tCK tCK tCKH tCKL tAC tAC tOH 12 - 10 - 15 - 15 - 8 - 10 - 10 - 10 - 3 - 3 - 3 - 3 3 - 3 - 3 - - 6 - 6 - - 6 - 6 3 - 3 tLZ 2 - tHZ - tDS tDH tAS tAH tCES Unit Notes ns 1 - ns 1 3 - ns 1 8 - 9 ns 1, 2 - 6 - 8 - 3 - 3 - ns 1, 2 2 - 2 - 2 - ns 1, 2, 3 6 - 6 - 6 - 7 ns 1, 4 2 - 2 - 2 - 2 - ns 1 1 - 1 - 1 - 1 - ns 1 2 - 2 - 2 - 2 - ns 1 1 - 1 - 1 - 1 - ns 1 2 - 2 - 2 - 2 - ns 1, 5 tCESP 2 - 2 - 2 - 2 - ns 1 tCEH 1 - 1 - 1 - 1 - ns 1 tCS 2 - 2 - 2 - 2 - ns 1 tCH 1 - 1 - 1 - 1 - ns 1 tRC 68 - 70 - 70 - 90 - ns 1 tRAS 48 120000 50 120000 50 120000 60 120000 ns 1 tRCD 20 - 20 - 20 - 30 - ns 1 tRP 20 - 20 - 20 - 30 - ns 1 8 GMM27333230ANTG AC Characteristics (Ta = 0 to 70C, VCC, VCCQ = 3.3 V +/- 0.3 V, VSS, VSSQ = 0 V) (Continued) -8 Parameter Symbol Write recovery or data-in to precharge lead time Active (a) to Active (b) command period Refresh period PLL Stabilization time - 7K - 7J - 10K Unit Notes Min Max Min Max Min Max Min Max tRWL 8 - 10 - 10 - 15 - ns 1 tRRD 16 - 20 - 20 - 20 - ns 1 tREF tSTAB - 64 - 64 - 64 - 64 ms 200 - 200 - 200 - 200 - us 6 Notes : 1. AC measurement assumes tT = 1ns. Reference level for timing of input signals is 1.40V. If tT is longer than 1ns,transition time compensation should be considered. 2. Access time is measured at 1.40V. Load condition is CL = 50pF without termination. 3. tLZ (min)defines the time at which the outputs achieves the low impedance state. 4. tHZ (max)defines the time at which the outputs achieves the high impedance state. 5. tCES define CKE setup time to CKE rising edge except Power down exit command. 6. The on-DIMM PLL must be given enough clock cycles to stabilize (tSTAB) before any operation can be guaranteed. Test Condition Input and output-timing reference levels: 1.4V Input waveform and output load: See following figures I/O 2.4V OPEN 80% input 0.4V 20% CL tT Rev. 1.1/Dec.99 tT 9 GMM27333230ANTG Relationship Between Frequency and Minimum Latency -8 Parameter frequency(MHz) Symbol 125 DQM to data out CKE to CLK disable Register set to active command CS to command disable Power down exit to command input Rev. 1.1/Dec.99 -7J -10K Notes 83 100 100 100 66 100 66 8 12 10 10 10 15 10 15 lRCD 3 2 2 2 2 2 3 2 1 lRC 9 6 7 7 7 6 9 6 = [lRAS +lRP], 1 lRAS 6 4 5 5 5 4 6 4 1 lRP 3 2 2 2 2 2 3 2 1 lRWL 1 1 1 1 1 1 1 1 1 lRRD 2 2 2 2 2 2 2 2 1 lSREX 1 2 1 1 1 2 2 2 lAPW 4 3 3 3 3 3 5 3 = [lRWL +lRP], 1 lSEC 9 6 7 7 7 6 9 6 = [lRC] lHZP lHZP - 2 2 2 - 2 - 2 3 3 3 3 3 3 3 3 lAPR 1 1 1 1 1 1 1 1 lEP lEP - -1 -1 -1 - -1 - -1 -2 -2 -2 -2 -2 -2 -2 -2 lCCD 1 1 1 1 1 1 1 1 lWCD 0 0 0 0 0 0 0 0 lDID lDOD lCLE lRSA lCDD 0 0 0 0 0 0 0 0 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 lPEC 1 1 1 1 1 1 1 1 tCK (ns) Active command to column command (same bank) Active command to active command (same bank) Active command to Precharge command (same bank) Precharge command to active command (same bank) Write recovery or last data-in to Precharge command (same bank) Active command to active command (different bank) Self refresh exit time Last data in to active command (Auto Precharge, same bank) Self refresh exit to command input Precharge (CL=2) command to (CL=3) high impedance Last data out to active command (auto Precharge) (same bank) Last data out to (CL=2) Precharge (CL=3) (early Precharge) Column command to column command Write command to data in latency DQM to data in -7K 10 GMM27333230ANTG Relationship Between Frequency and Minimum Latency -8 Parameter frequency(MHz) Symbol 125 tCK (ns) Burst stop to (CL=2) output valid (CL=3) data hold Burst stop to (CL=2) output high (CL=3) impedance Burst stop to write data ignore lBSR lBSR lBSH lBSH lBSW - 7K - 7J - 10K 83 100 100 100 66 100 66 8 12 10 10 10 15 10 15 - 1 1 1 - 1 - 1 2 2 2 2 2 2 2 2 - 2 2 2 - 2 - 2 3 3 3 3 3 3 3 3 0 0 0 0 0 0 0 0 Notes Notes : 1. lRCD to lRRD are recommended value. Rev. 1.1/Dec.99 11 GMM27333230ANTG Unit: mil (mm) * (1 mil = 1/1000 inches) Package Dimension 700(17.78) 1650(41.91) 157.48(4.0) 5250(133.35) 1 84 "C"1450(36.83) 450(11.43) "B" 2150(54.61) "A" 250(6.35) 1700(43.18) 157.48(4.0) max. 4550(115.57) 5013.78(127.35) 157.48(4.0) min. (Front Side) 168 85 (Rear Side) 39.37(1.0) 39.37(1.0) R78.74 (2.0) 125(3.175) 50(1.27) 125(3.175) 39.37(1.0) DETAIL "C" 78.74(2.0) DETAIL "B" 100(2.54) min. R78.74 (2.0) 5.9(0.15) 122.83(3.12) 78.74(2.0) 50(1.27) DETAIL "A" NOTE : 1. Tolerances on all dimensions +/-5 (0.127) unless otherwise specified. 2. Thickness includes Plating and / or Metallization. Rev. 1.1/Dec.99 12 SDRAM Memory Module EEPROM Data Information GMM27333230ATG-7J Byte Function described 0 Define # bytes written into serial memory at module mfgr 1 Total # bytes of SPD memory device 2 Fundamental memory type (FPM, EDO, SDRAM...) from appendix A 3 # Row addresses on this assembly 4 # Column addresses on this assembly 5 # Module banks on this assembly 6 Data width of this assembly... 7 ...Data width continuation 8 Voltage interface standard of this assembly 9 SDRAM cycletime 10 SDRAM access from clock 11 DIMM configuration type (Non-parity, Parity, ECC) 12 Refresh rate/type 13 DRAM/SDRAM width, primary DRAM/SDRAM 14 Error checking SDRAM data width 15 Minimum clock delay, back to back random column address(tCCD) 16 Burst lengths supported 17 # Banks on each SDRAM device 18 CAS # latency 19 CS # latency 20 Write latency 21 SDRAM module attributes 22 SDRAM device attributes : General 23 Minimum clock cycle time at CL X-1 24 Maximum data access time from clock at CL X-1 25 Minimum clock cycle time at CL X-2 26 Maximum data access time from clock at CL X-2 27 Minimum row precharge time(tRP) 28 Minimum row active to row active delay(tRRD) 29 Minimum RAS to CAS delay(tRCD) 30 Minimum RAS pulse width(tRAS) 31 Module bank density 32 Command and address signal input setup time(tAS) 33 Command and address signal input hold time(tAH) 34 Data signal input setup time(tDS) 35 Data signal input hold time(tDH) 36-61 Superset information (may be used in future) 62 SPD revision 63 Checksum for bytes 0-62 64 Manufacturers JEDEC ID code per JEP-106F 65-71 ….. Continuation Manufacturers JEDEC ID Code 72 Manufacturing location 73 Manufacturer's part number 74 === Allowed characters include 0-9, A-Z and 'space' === 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 Revision Code 92 Revision Code 93 Date Code 94 95-98 Assembly serial number 99-125 Manufacturer specific data 126 Intel specification for frequency 127 Intel specfication details for 100Mhz Support 128-135 System integrator's ID 136-150 System integrator's P/N 151-152 System integrator's D/C 153-165 System integrator's S/N 166 Checksum for bytes 128-165 167-189 Top level system serial no. 190-221 Open 222 Checksum for bytes 167-221 223-253 Open 254 Checksum for Bytes 223-253 255 Checksum for bytes 0-128 Function support 128 Bytes 256 Bytes SDRAM 12 11 1 72 bit N/A LVTTL 10.0 ns 6.0 ns ECC Normal(15.625us) x4 x4 1 ns Full Page Supported 4 banks 2&3 0 0 Register(w/ PLL) Support All(VCC:10%) 15.0 ns 8.0 ns N/A N/A 20 ns 20 ns 20 ns 50 ns 256 MBytes 2.0 ns 1.0 ns 2.0 ns 1.0 ns TBD Rev 1.2 HME Korea GMM27333230ATG-7J Rev 0 WW YY Binary incremental N/A CK0_CL3 HEX Code DEC Code 80 128 08 008 04 004 0C 012 0B 011 01 001 48 072 00 000 01 001 A0 160 60 096 02 002 80 128 04 004 04 004 01 001 8F 143 04 004 06 006 01 001 01 001 16 022 0F 015 F0 240 80 128 00 000 00 000 14 020 14 020 14 020 32 050 40 064 20 032 10 016 20 032 10 016 00 000 12 018 C8 200 E0 224 00 000 52 082 47 071 4D 077 4D 077 32 050 37 055 33 051 33 051 33 051 32 050 33 051 30 048 41 065 54 084 47 071 2D 045 37 055 4A 074 20 32 00 000 00 000 14 020 00 000 00 000 00 000 64 100 8D 141 00 000 00 000 00 000 00 000 00 000 00 000 00 000 00 000 00 000 00 000 00 000 BIN Code 10000000 00001000 00000100 00001100 00001011 00000001 01001000 00000000 00000001 10100000 01100000 00000010 10000000 00000100 00000100 00000001 10001111 00000100 00000110 00000001 00000001 00010110 00001111 11110000 10000000 00000000 00000000 00010100 00010100 00010100 00110010 01000000 00100000 00010000 00100000 00010000 00000000 00010010 11001000 11100000 00000000 01010010 01000111 01001101 01001101 00110010 00110111 00110011 00110011 00110011 00110010 00110011 00110000 01000001 01010100 01000111 00101101 00110111 01001010 00100000 00000000 00000000 00010100 00000000 00000000 00000000 01100100 10001101 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00.05.09 Note 1st Group 82d(free) G M M 2 7 3 3 3 2 3 0 A T G 7 J blank 20 ww 0 year 98byte start Source : Intel Rev. 1.2B SDRAM Memory Module EEPROM Data Information GMM27333230ATG-7K Byte Function described 0 Define # bytes written into serial memory at module mfgr 1 Total # bytes of SPD memory device 2 Fundamental memory type (FPM, EDO, SDRAM...) from appendix A 3 # Row addresses on this assembly 4 # Column addresses on this assembly 5 # Module banks on this assembly 6 Data width of this assembly... 7 ...Data width continuation 8 Voltage interface standard of this assembly 9 SDRAM cycletime 10 SDRAM access from clock 11 DIMM configuration type (Non-parity, Parity, ECC) 12 Refresh rate/type 13 DRAM/SDRAM width, primary DRAM/SDRAM 14 Error checking SDRAM data width 15 Minimum clock delay, back to back random column address(tCCD) 16 Burst lengths supported 17 # Banks on each SDRAM device 18 CAS # latency 19 CS # latency 20 Write latency 21 SDRAM module attributes 22 SDRAM device attributes : General 23 Minimum clock cycle time at CL X-1 24 Maximum data access time from clock at CL X-1 25 Minimum clock cycle time at CL X-2 26 Maximum data access time from clock at CL X-2 27 Minimum row precharge time(tRP) 28 Minimum row active to row active delay(tRRD) 29 Minimum RAS to CAS delay(tRCD) 30 Minimum RAS pulse width(tRAS) 31 Module bank density 32 Command and address signal input setup time(tAS) 33 Command and address signal input hold time(tAH) 34 Data signal input setup time(tDS) 35 Data signal input hold time(tDH) 36-61 Superset information (may be used in future) 62 SPD revision 63 Checksum for bytes 0-62 64 Manufacturers JEDEC ID code per JEP-106F 65-71 ….. Continuation Manufacturers JEDEC ID Code 72 Manufacturing location 73 Manufacturer's part number 74 === Allowed characters include 0-9, A-Z and 'space' === 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 Revision Code 92 Revision Code 93 Date Code 94 95-98 Assembly serial number 99-125 Manufacturer specific data 126 Intel specification for frequency 127 Intel specfication details for 100Mhz Support 128-135 System integrator's ID 136-150 System integrator's P/N 151-152 System integrator's D/C 153-165 System integrator's S/N 166 Checksum for bytes 128-165 167-189 Top level system serial no. 190-221 Open 222 Checksum for bytes 167-221 223-253 Open 254 Checksum for Bytes 223-253 255 Checksum for bytes 0-128 Function support 128 Bytes 256 Bytes SDRAM 12 11 1 72 bit N/A LVTTL 10.0 ns 6.0 ns ECC Normal(15.625us) x4 x4 1 ns Full Page Supported 4 banks 2&3 0 0 Register(w/ PLL) Support All(VCC:10%) 10.0 ns 6.0 ns N/A N/A 20 ns 20 ns 20 ns 50 ns 256 MBytes 2.0 ns 1.0 ns 2.0 ns 1.0 ns TBD Rev 1.2 HME Korea GMM27333230ATG-7K Rev 0 WW YY Binary incremental N/A CK0_CL2 HEX Code DEC Code 80 128 08 008 04 004 0C 012 0B 011 01 001 48 072 00 000 01 001 A0 160 60 096 02 002 80 128 04 004 04 004 01 001 8F 143 04 004 06 006 01 001 01 001 16 022 0F 015 A0 160 60 096 00 000 00 000 14 020 14 020 14 020 32 050 40 064 20 032 10 016 20 032 10 016 00 000 12 018 58 088 E0 224 00 000 52 082 47 071 4D 077 4D 077 32 050 37 055 33 051 33 051 33 051 32 050 33 051 30 048 41 065 54 084 47 071 2D 045 37 055 4B 075 20 32 00 000 00 000 14 020 00 000 00 000 00 000 64 100 8F 143 00 000 00 000 00 000 00 000 00 000 00 000 00 000 00 000 00 000 00 000 00 000 BIN Code 10000000 00001000 00000100 00001100 00001011 00000001 01001000 00000000 00000001 10100000 01100000 00000010 10000000 00000100 00000100 00000001 10001111 00000100 00000110 00000001 00000001 00010110 00001111 10100000 01100000 00000000 00000000 00010100 00010100 00010100 00110010 01000000 00100000 00010000 00100000 00010000 00000000 00010010 1011000 11100000 00000000 01010010 01000111 01001101 01001101 00110010 00110111 00110011 00110011 00110011 00110010 00110011 00110000 01000001 01010100 01000111 00101101 00110111 01001011 00100000 00000000 00000000 00010100 00000000 00000000 00000000 01100100 10001111 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00.05.09 Note 1st Group 82d(free) G M M 2 7 3 3 3 2 3 0 A T G 7 K blank 20 ww 0 year 98byte start Source : Intel Rev. 1.2B