Substrate processing apparatus

What is claimed is: 1. A substrate processing apparatus comprising: a frame; a drive section connected to the frame, the drive section having a drive axis of rotation; a first arm including an upper arm link connected to the drive section for rotation about the drive axis of rotation, a forearm link rotatably coupled to the upper arm link about an elbow axis, and an end effector rotatably coupled to the forearm link about a wrist axis; and a second arm including an upper arm link connected to the drive section for rotation about the drive axis of rotation, a forearm link rotatably coupled to the upper arm link about an elbow axis, and an end effector rotatably coupled to the forearm link about a wrist axis; wherein the first arm is configured so that the second arm is rotatable about the drive axis of rotation in a retracted configuration between the upper arm and forearm of the first arm independent of a position of the first arm. 2. The substrate processing apparatus of claim 1 , wherein the drive section includes a coaxial shaft arrangement configured to connect the first and second arms to the drive section. 3. The substrate processing apparatus of claim 2 , wherein the coaxial shaft arrangement includes an inner shaft, an outer shaft, a first intermediary shaft and a second intermediary shaft, the inner shaft and first intermediary shaft drive the second arm and the second intermediary shaft and outer shaft drive the first arm, and the first intermediary shaft is configured to axially support the second intermediary shaft and the second intermediary shaft is configured to axially support the outer shaft. 4. The substrate processing apparatus of claim 2 , wherein the drive section further comprises at least two side by side motors coupled to the coaxial shaft arrangement. 5. The substrate processing apparatus of claim 4 , wherein each of the at least two side by side motors comprises a multi-degree of freedom motor. 6. The substrate processing apparatus of claim 4 , wherein each of the at least two side by side motors are harmonic drives. 7. The substrate processing apparatus of claim 1 , wherein the substrate processing apparatus further comprises: substrate holding locations connected to the frame; and a controller, the controller being configured to independently rotate one of the first and second arms to align an end effector of the one of the first and second arms with a substrate holding station while the other one of the first and second arms is transferring a substrate to the same or a different substrate holding station to anticipate a subsequent substrate transfer. 8. A method comprising: providing a frame of a substrate processing apparatus; providing a drive section connected to the frame, the drive section having a drive axis of rotation; providing a first arm including an upper arm link connected to the drive section for rotation about the drive axis of rotation, a forearm link rotatably coupled to the upper arm link about an elbow axis, and an end effector rotatably coupled to the forearm link about a wrist axis; and providing a second arm including an upper arm link connected to the drive section for rotation about the drive axis of rotation, a forearm link rotatably coupled to the upper arm link about an elbow axis, and an end effector rotatably coupled to the forearm link about a wrist axis; effecting rotation with the second arm about the drive axis of rotation in a retracted configuration between the upper arm and forearm of the first arm independent of a position of the first arm. 9. The method of claim 8 , wherein the drive section includes a coaxial shaft arrangement configured to connect the first and second arms to the drive section. 10. The method of claim 9 , wherein the coaxial shaft arrangement includes an inner shaft, an outer shaft, a first intermediary shaft and a second intermediary shaft, the inner shaft and first intermediary shaft drive the second arm and the second intermediary shaft and outer shaft drive the first arm, and the first intermediary shaft is configured to axially support the second intermediary shaft and the second intermediary shaft is configured to axially support the outer shaft. 11. The method of claim 9 , wherein the drive section includes at least two side by side motors coupled to the coaxial shaft arrangement. 12. The method of claim 11 , wherein each of the at least two side by side motors includes a multi-degree of freedom motor. 13. The method of claim 11 , wherein each of the at least two side by side motors are harmonic drives. 14. The method of claim 8 , further comprising: providing substrate holding locations connected to the frame; and independently rotating, with a controller, one of the first and second arms to align an end effector of the one of the first and second arms with a substrate holding station while the other one of the first and second arms is transferring a substrate to the same or a different substrate holding station to anticipate a subsequent substrate transfer.