You can combine this information from a number of places. First you must identify which ARM processor you are looking at, then find the TRM for that processor. In this case, the Cortex-M4 TRM is available here:
This tells you (Section 7) that the FPU in the Cortex-M4 is:
an implementation of the single precision variant of the ARMv7-M
Floating-Point Extension (FPv4-SP).
Looking at the ARMv7m architecture reference manual (Available behind a license at http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.ddi0403c/index.html) we can find out about the Floating Point architecture extensions in section A1.3. Here we also find this advice:
Based on the VFP implementation options defined for the ARMv7-A and
ARMv7-R architecture profiles, a full characterization of the ARMv7-M
Floating-point extension is FPv4-SP-D16-M. Some software tools might
require this characterization.
GCC doesn't add the 'm' to the end of the characterization, so this gets us to the option -mfpu=fpv4-sp-d16.
For the meaning of VFPv4-d16 we must look at the ARMv7a architecture reference manual (behind a license here http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.ddi0419c/index.html) where section A1.4.1 gives this definition:
VFPv4 can be implemented with either thirty-two or sixteen doubleword
registers, see Advanced SIMD and Floating-point Extension registers on
page A2-56. Where necessary, these implementation options are
distinguished using the terms:
• VFPv4-D32, or VFPv4U-D32, for a
thirty-two register implementation
• VFPv4-D16, or VFPv4U-D16, for a
sixteen register implementation.
Where the term VFPv4 is used it
covers both options.