Double stub transmission line for suppression of harmonics

What is claimed is: 1. A circuit board comprising: a pair of differential transmission lines to transmit signals of a given frequency, the pair of differential transmission lines comprising a first transmission line and a second transmission line; a first stub connected to the first transmission line at a first location, wherein the first stub is to filter out signals of a first frequency; a second stub connected to the first transmission line at a second location, wherein the second stub is to filter out signals of a second frequency, wherein the first and second stubs are connected to the first transmission line at the first and second locations along the first transmission line such that an insertion loss of the transmitted signals of the given frequency is less than insertion losses of the signals of the first frequency and the signals of the second frequency; a third stub connected to the second transmission line at a third location, wherein the third stub is to filter out the signals of the first frequency; and a fourth stub connected to the second transmission line at a fourth location, wherein the fourth stub is to filter out the signals of the second frequency, wherein the pair of differential transmission lines is bent such that a first segment of the pair of differential transmission lines has a bent angle relative to a second segment of the pair of differential transmission lines, wherein the first and second stubs are connected to the first transmission line in the first segment, and the third and fourth stubs are connected to the second transmission line in the second segment. 2. The circuit board of claim 1 , wherein a first length of the first stub is based on a quarter wavelength of the first frequency, and wherein a second length of the second stub is based on a quarter wavelength of the second frequency, the first length being different from the second length. 3. The circuit board of claim 2 , wherein the first frequency is twice the given frequency, and the second frequency is three times the given frequency. 4. The circuit board of claim 1 , wherein the first transmission line and the first or second stub are in different layers of the circuit board, and wherein the first or second stub is connected to the first transmission line by a via. 5. The circuit board of claim 1 , wherein the first transmission line and the first and second stubs are in a same layer of the circuit board, wherein a respective stub of the first and second stubs is L-shaped, and wherein a first segment of the respective stub is connected to the first transmission line and is angled relative to the first transmission line, and wherein a second segment of the respective stub is parallel to the first transmission line. 6. The circuit board of claim 5 , wherein each of the first and second stubs is L-shaped, and the L-shaped first and second stubs are positioned on different sides of the first transmission line, and wherein the L-shaped first and second stubs extend toward each other. 7. The circuit board of claim 1 , wherein the first frequency is twice the given frequency, and a first length of a first stub filter including the first stub is a quarter wavelength of the first frequency, wherein the second frequency is three times the given frequency, and a second length of a second stub filter including the second stub is a quarter wavelength of the second frequency, and wherein a distance between the first and second locations is a sum of the first length of the first stub filter and the second length of the second stub filter. 8. The circuit board of claim 1 , comprising a first socket for mounting a processing unit and a plurality of sockets for mounting a plurality of memory modules, and wherein the pair of differential transmission lines is part of a bus connecting the first socket and the plurality of sockets. 9. The circuit board of claim 1 , wherein the insertion loss of the transmitted signals of the given frequency is less than 1 decibel (dB). 10. The circuit board of claim 9 , wherein the insertion losses of the signals of the first frequency and the signals of the second frequency is greater than 30 dB. 11. The circuit board of claim 1 , wherein a difference between a return loss at the given frequency and a return loss at the first frequency or the second frequency is greater than 10 dB. 12. The circuit board of claim 1 , wherein the first and second stubs are located on a first side of the pair of differential transmission lines, and the third and fourth stubs are located on an opposite second side of the pair of differential transmission lines. 13. A circuit board comprising: a transmission line to transmit signals of a given frequency; a first stub filter connected to the transmission line at a first location, wherein the first stub filter is to filter out signals of a first frequency, wherein the first frequency is twice the given frequency, and wherein a first length of the first stub filter is a quarter wavelength of the first frequency; and a second stub filter connected to the transmission line at a second location, wherein the second stub filter is to filter out signals of a second frequency, wherein the second frequency is three times the given frequency, and wherein a second length of the second stub filter is a quarter wavelength of the second frequency, wherein the first and second stub filters are connected to the transmission line at the first and second locations along the transmission line such that an insertion loss of the transmitted signals of the given frequency is less than insertion losses of the signals of the first frequency and the signals of the second frequency, and wherein a distance between the first and second locations is a sum of the first length of the first stub filter and the second length of the second stub filter. 14. The circuit board of claim 13 , wherein the transmission line is a first transmission line of a pair of differential transmission lines, and wherein the pair of differential transmission lines further comprises a second transmission line, the circuit board further comprising: a third stub filter connected to the second transmission line at a third location, wherein the third stub filter is to filter out the signals of the first frequency; and a fourth stub filter connected to the second transmission line at a fourth location, wherein the fourth stub filter is to filter out the signals of the second frequency. 15. The circuit board of claim 13 , wherein the first stub filter includes a first stub, and the second stub filter includes a second stub, and wherein a respective stub of the first and second stubs is L-shaped, and wherein a first segment of the respective stub is connected to the transmission line and is angled relative to the transmission line, and wherein a second segment of the respective stub is parallel to the transmission line. 16. The circuit board of claim 15 , wherein each of the first and second stubs is L-shaped, and the L-shaped first and second stubs are positioned on different sides of the transmission line, and wherein the L-shaped first and second stubs extend toward each other. 17. The circuit board of claim 13 , wherein the first stub filter includes a first stub and a via connecting the transmission line to the first stub, and the second stub filter includes a second stub and a via connecting the transmission line to the second stub. 18. A circuit board comprising: a first socket for mounting a processing unit; a plurality of sockets for mounting a plurality of memory m