Need help with MicroMag Connections

I have a MicroMag Carrier V 1.00 and need help with understanding the connections

http://www.sparkfun.com/products/243

I am not able to read the pins off the device.

It has 7 wires on one side - 3 green, 1 yellow and 3 red.

It has 7 wires on the other side - 4 green, 1 yellow, 1 red and 1 green.

I need to connect this to the Arduino board.

Any idea which wires need to be connected to the Arduino board? There is a white dot on one side of the device. Does it indicate anything?

Sorry, I did not receive any documentation with the device

Did you see the documentation links that SparkFun put on the product sheet?

http://www.sparkfun.com/products/243

Yes. I did and alsoincluded in my post.

I am not able to correlate this documentation to the device I have with me.

Like I said, it has 14 wires coming out and I do not know which wire is connected to which pin.

the wires are colored green, yellow, red and blue and I do not know what significance the colors have.

Also, I see a white dot on the board and I do not know if this has any significance

Also, this is the code I picked up on the Internet

#define SCLK 7 //the clock to pulse
#define MISO 6
#define MOSI 5
#define SSNOT 4 //when low, the device is enabled
#define DRDY 3 //this islow after a reset, high when data is ready
#define RESET 2 //this needs to be toggled low-high-low before each measurement
#define POT 0


//the most significant bit overflowed an int, so these need to be long
long x = 0;
long y = 0;
long z = 0;
int potValue;
long time;


void setup(){
  Serial.begin(9600);


  pinMode(SSNOT, OUTPUT);
  pinMode(RESET, OUTPUT);
  pinMode(MOSI, OUTPUT);
  pinMode(MISO, INPUT);
  pinMode(DRDY, INPUT);
  pinMode(SCLK, OUTPUT);
  pinMode(POT, OUTPUT);


  //i could just ground this line, but this at least marks it as
  //something that one could change if needed
  digitalWrite(SSNOT, LOW);
}


void loop(){
  if (Serial.available()){
    //take the pot measurement first
    potValue = analogRead(POT);
    time = millis();


    //this reads the x, y, and z axes sequentially
    readaxis(0);
    readaxis(1);
    readaxis(2);


    Serial.print(potValue,DEC);
    Serial.print(44,BYTE);
    //this compares the time at which the pot value was read with the time
    //after the magnetometer measurements were taken and the data sent
    Serial.print(time,DEC);
    Serial.print(44,BYTE);
    Serial.print(millis(),DEC);
    Serial.print(44,BYTE);
    Serial.print(13, BYTE);
  }
}


void send_bit(int _high){


  //this sends the bit on the rising edge of the clock


  digitalWrite(MOSI, _high);
  delay(1);
  digitalWrite(SCLK, HIGH);
  delay(1);
  digitalWrite(SCLK, LOW);
  delay(1);
}


int receive_bit(){


  //this receives the data on the falling edge of the clock


  digitalWrite(SCLK, HIGH);
  delay(1);
  int bit = digitalRead(MISO); 
  delay(1);
  digitalWrite(SCLK, LOW);
  delay(1);
  return bit;
}


int readaxis(int _axis){
  //this function sends eight bits, wait until the data is ready
  //and receives 16 bits


    //pulse the reset
  digitalWrite(RESET, LOW);
  delay(1);
  digitalWrite(RESET, HIGH);
  delay(1);
  digitalWrite(RESET, LOW);
  delay(1);


  //send the command byte


  //this sends data that we are not in debug mode
  //and sets the amount of time to read the magnetic sensors (the ASIC period)
  //as /2048 
  send_bit(LOW);
  send_bit(HIGH);
  send_bit(HIGH);
  send_bit(LOW);
  send_bit(LOW);
  send_bit(LOW);


  //the last two bits select the axis
  if (_axis == 0){ //x axis
    send_bit(LOW);
    send_bit(HIGH);
  }
  else if (_axis == 1){ //y axis
    send_bit(HIGH);
    send_bit(LOW);
  }
  else{ //z axis
    send_bit(HIGH);
    send_bit(HIGH);
  }


  //wait until the drdy line is high
  while (digitalRead(DRDY) == LOW){
    //wait
    //Serial.println("waiting"); 
  }
  //Serial.println("data!");


  long runningtotal = 0;


  //receive the results and tally them up as they come in 


  //the leftmost bit signs the number as positive or negative
  long sign = receive_bit();


  for (int i = 14; i >= 0; i = i - 1){
    long thisbit = receive_bit();
    thisbit = thisbit << i;
    runningtotal = runningtotal | thisbit;
  }


  if (sign == 1){
    runningtotal = runningtotal - 32768; 
  }


  if (_axis == 0){
    x = runningtotal;
    Serial.print(x,DEC);
    Serial.print(44, BYTE);
  }
  else if (_axis == 1){
    y = runningtotal;
    Serial.print(y,DEC);
    Serial.print(44, BYTE);
  }
  else{
    z = runningtotal; 
    Serial.print(z,DEC);
    Serial.print(44, BYTE);
  }
}