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 ### Design considerations
 Let's review the design features one by one:
 - Matched Resistor Networks:
-  * This design decision was made to reduce costs while maintaining precision. The traditional for implementing a LTZ1000 project uses high precision foil resistors like VHP100 or S102, which can be quite expensive. By opting for cheaper resistor networks, I was able to achieve the same level of stability. These resistor networks are ideal for ratiometric circuits, of which the LTZ has quite a few, ensuring excellent performance due to being manufactured simultaneously under the same conditions.
+  * This design decision was made to reduce costs while maintaining precision. The traditional for implementing a LTZ1000 project uses high precision foil resistors like VHP100 or S102, which can be quite expensive. By opting for cheaper resistor networks, I was able to achieve the same level of stability. These resistor networks are ideal for ratiometric values, of which the LTZ circuit has quite a few, ensuring excellent performance due to being manufactured simultaneously under the same conditions on the same substrate.
  
 - 10V and 1V output
  * In order to calibrate a variety of devices effectively, it is essential to have reliable outputs. This not only ensures accurate calibration of the voltage reference itself but also enhances overall precision.