[1] Gilbert, B., "Translinear circuits: a proposed classification", Electron.Lett., Vol. 11, pp. 14 16, 1975.

[2] Gilbert, B., "A dc-500 MHz amplifier/multiplier principle", Digest Tech. Papers, International Solid-States Circ. Conf., pp. 114 115, 1968.

[3] Gilbert, B., "A monolithic microsystem for analog synthesis of trigonometric functions and their inverses", IEEE JSSC, Vol. SC-17, No. 6, pp. 1179 1191, 1982.

[4] Seevinck, E., "Analysis and synthesis of translinear integrated circuits" Doctor of Science thesis, University of Pretoria, May, 1981.

[4a] Seevinck, E., "Analysis and synthesis of translinear integrated circuits", Elsevier, 1988.

[5] Gilbert, B., "A four-quadrant analog divider/multiplier with 0.01% distortion", Tech. Papers, International Solid-State Circ. Conf., pp. 248 249, 1983.

[6] Gilbert, B., "A precise four-quadrant multiplier with subnanosecond response", IEEE JSSC, Vol. SC-3, No. 4, pp. 365 373.

[7] Sheingold, D. H., (Ed.), Nonlinear circuits handbook, Analog Devices Inc., Norwood, MA 1976.

[8] Gilbert, B., "General technique for n-dimensional vector summation of bipolar signals", Electron. Lett., Vol. 12, No. 19, pp. 504 505, 1976.

[9] Gilbert, B., "High-accuracy vector-difference and vector-sum circuits",Electron. Lett., Vol. 12, No. 11, pp. 293 294, 1976.

[10] Gilbert, B., "New analogue multiplier opens way to powerful function-synthesis", Microelectronics, Vol. 8, No. 1, pp. 26 36, 1976.

[11] Gilbert, B., "A new wide-band amplifier technique", IEEE JSSC, Vol. SC-3, No. 4, pp. 353 365, 1968.

[12] Caprio, R., "Precision differential voltage-current convertor", Electron.Lett., Vol. 9, pp. 147 148, 1973.

[13] Gilbert, B., "An analog array processor", Tech. Papers, International Solid-State...