High-frequency signal observations in electronic systems

What is claimed is: 1. A high-frequency signal observation circuit, comprising: an observation signal selection circuit comprising a plurality of low-distortion multiplexers (MUXs) disposed according to a binary tree structure, wherein the observation signal selection circuit is communicatively coupled to a high-speed input/output (I/O) circuit via a bypass data path and configured to receive a plurality of electronic input signals; and a signal control logic coupled to the observation signal selection circuit and the high-speed I/O circuit, wherein the signal control logic is configured to: provide one or more selection control signals to the observation signal selection circuit to select an observation signal among the plurality of electronic input signals; control the observation signal selection circuit to provide the observation signal to the high-speed I/O circuit via the bypass data path; and provide a first output control signal to the high-speed I/O circuit to output the observation signal as an electronic output signal. 2. The high-frequency signal observation circuit of claim 1 , wherein the plurality of electronic input signals comprises one or more control signals. 3. The high-frequency signal observation circuit of claim 2 , wherein the one or more control signals comprise at least one high-frequency clock signal configured to control a serializer/deserializer (SerDes) logic coupled to the high-speed I/O circuit. 4. The high-frequency signal observation circuit of claim 3 , wherein the SerDes logic is configured to: generate a serialized data signal based on the at least one high-frequency clock signal; and provide the serialized data signal to the high-speed I/O circuit. 5. The high-frequency signal observation circuit of claim 4 , wherein the signal control logic is further configured to provide a second output control signal to the high-speed I/O circuit to output the serialized data signal as the electronic output signal. 6. The high-frequency signal observation circuit of claim 4 , wherein the bypass data path is configured to bypass the SerDes logic. 7. The high-frequency signal observation circuit of claim 1 , wherein the high-speed I/O circuit is selected from the group consisting of: a peripheral component interconnect (PCI) express (PCIe) circuit; a universal serial bus (USB) circuit; a universal flash storage (UFS) circuit; a high definition multimedia interface (HDMI) circuit; and a serial advanced technology attachment (SATA) circuit. 8. The high-frequency signal observation circuit of claim 1 integrated into an integrated circuit (IC). 9. The high-frequency signal observation circuit of claim 1 integrated into a device selected from the group consisting of: a set top box; an entertainment unit; a navigation device; a communications device; a fixed location data unit; a mobile location data unit; a mobile phone; a cellular phone; a computer; a portable computer; a desktop computer; a personal digital assistant (PDA); a monitor; a computer monitor; a television; a tuner; a radio; a satellite radio; a music player; a digital music player; a portable music player; a digital video player; a video player; a digital video disc (DVD) player; and a portable digital video player. 10. A high-frequency signal observation circuit, comprising: a means for selecting an observation signal comprising a plurality of low-distortion multiplexers (MUXs) disposed according to a binary tree structure, wherein the means for selecting an observation signal is communicatively coupled to a high-speed input/output (I/O) circuit via a bypass data path and configured to receive a plurality of electronic input signals; and a means for providing a control signal coupled to the means for selecting the observation signal and the high-speed I/O circuit, wherein the means for providing the control signal is configured to: provide one or more selection control signals to the means for selecting the observation signal to select the observation signal among the plurality of electronic input signals; control the means for selecting the observation signal to provide the observation signal to the high-speed I/O circuit via the bypass data path; and provide a first output control signal to the high-speed I/O circuit to output the observation signal as an electronic output signal. 11. A method for observing a high-frequency signal, comprising: configuring an observation signal selection circuit to receive a plurality of electronic input signals; providing one or more selection control signals from a signal control logic to the observation signal selection circuit to select an observation signal among the plurality of electronic input signals using a plurality of low-distortion multiplexers (MUXs) arranged in a binary tree structure; outputting the observation signal to a high-speed input/output (I/O) circuit via a bypass data path; and providing a first output control signal from the signal control logic to the high-speed I/O circuit to output the observation signal. 12. The method of claim 11 , further comprising configuring the observation signal selection circuit to receive at least one high-frequency clock signal configured to control a serializer/deserializer (SerDes) logic. 13. The method of claim 12 , comprising providing the one or more selection control signals to control the observation signal selection circuit to select the at least one high-frequency clock signal as the observation signal. 14. The method of claim 12 , comprising outputting the observation signal to the high-speed I/O circuit via the bypass data path that bypasses the SerDes logic. 15. An electronic system configured to enable high-frequency signal observation, comprising: a high-frequency signal observation circuit, comprising: a high-speed input/output (I/O) circuit configured to output an electronic output signal from an electronic system; an observation signal selection circuit comprising a plurality of low-distortion multiplexers (MUXs) disposed according to a binary tree structure, wherein the observation signal selection circuit is coupled to the high-speed I/O circuit via a bypass data path and configured to receive a plurality of electronic input signals from the electronic system; and a signal control logic coupled to the observation signal selection circuit and the high-speed I/O circuit, wherein the signal control logic is configured to: provide one or more selection control signals to the observation signal selection circuit to select an observation signal among the plurality of electronic input signals; control the observation signal selection circuit to provide the observation signal to the high-speed I/O circuit via the bypass data path; and provide a first output control signal to the high-speed I/O circuit to output the observation signal as the electronic output signal. 16. The electronic system of claim 15 , further comprising: a serializer/deserializer (SerDes) logic coupled to the high-speed I/O circuit, wherein the SerDes logic is configured to: receive at least one parallelized data input signal and at least one high-frequency clock signal from the electronic system, wherein the at least one high-frequency clock signal is among the plurality of electronic input signals; generate a serialized data signal based on the at least one parallelized data input signal and the at least one high-frequency clock signal; and provide the serialized data signal to the high-speed I/O circuit; and a debug signal multiplexer (MUX) circuit configured to: receive the plurality of electronic input