Many things influence the SSL time including:
Infrastructure (this won't affect just SSL but ALL network traffic):
- Standard network issues (how far away your server is from client, how fast the network is in between... etc) as the SSL/TLS handshake takes several round trips. You have little control over these except changing hosting provider and/or using a CDN. AWS is, in my experience fast and you are only asking to improve SSL rather than general access times so maybe skip this one for now.
- Server response time. Is the server under powered in CPU, Ram or disk? Are you sharing this host? Again general issue so maybe skip past this but SSL/TLS does take some processing power though, with modern servers it is barely noticeable nowadays.
- Server OS. Newer is better. So if running Red Hat Linux 4 for example then expect it to be considerably slower than the latest Red Hat Linux 7, with improved networking stack and newer versions of key software like OpenSSL.
SSL set up (run your site through https://www.ssllabs.com/ssltest and you should get a state of health of this):
- Ciphers used. There are older and slower ciphers and faster and new ones. Can get complicated here really quickly but generally you should be looking for ECDHE ciphers for most clients (and preferable ECDHE...GCM ones) and want to specify that server order should be used so you get to pick the cipher used rather than the client.
- Certificate used. You'll want a RSA 2048 cert. Anything more is overkill and slow. Some sites (and some scanning tools) choose RSA 4096 certificates but these do have a noticeable impact on speed with no real increase in security (at this time - that may change). There are newer ECDSA certs (usually shown as 256 EC cert in ssllabs report) but these faster ECDSA certs are not supplied by all CAs and are not universally supported by all clients, so visitors on older hardware and software may not be able to connect with them. Apache (and very recently Nginx from v 1.11.0) supports dual certs to have best of both worlds but at the expense of having two certs and some complexity of setting them up.
- Certificate Chain. You'll want a short certificate chain (ideal 3 cert long: your server, intermediary and the CAs root certificate). Your server should return everything but the last cert (which is already in browsers certificate store). If any of the chain is missing, some browsers will attempt to look the musing ones but this takes time.
- Reliable cert provider. As well as shorter cert chains, better OCSP responders, their intermediaries also are usually cached in users browsers as they are likely to be used by other sites.
- OCSP Stapling saves network trip to check cert is valid, using OCSP or CRL. Turning it on won't make a difference for Chrome as they don’t check for revocation (mostly but EV certificates do get checked). It can make a noticeable difference to IE so should be turned on if your server supports them but do be aware of some implementation issues - particularly nginx’s first Request after restart always fails when OCSP Stapling is turned on.
- TLSv1.2 should be used and possibly TLSv1 .0 for older clients but no SSLv2 and SSLv3. TLSv1.1 is kind of pointless (pretty much everyone that supports that also supports the newer and better TLSv1.2). TLSv1.3 is currently being worked on and has some good performance improvements but has not been fully standardised yet as there are some known compatibility issues. Hopefully these will be resolved soon so it can be used. Note PCI compliance (if taking credit cards on your site) demands TLSv1.2 or above on new sites, and on all sites by 30th June 2018.
Repeat visits - while above will help with the initial connection, most sites require several resources to be downloaded and with bad set up can have to go through whole handshake each time (this should be obvious if you're seeing repeated SSL connection set ups for each request when running things like webpagetest.org):
- HTTP Keep-Alives should be turned on so the connection is not dropped after each HTTP Request (this should be the default for HTTP/1.1 implementations).
- SSL caching and tickets should be on in my opinion. Some disagree for some obscure security reasons that should be fixed in TLSv1.3 but for performance reasons they should be on. Sites with highly sensitive information may choose the more complete security over performance but in my opinion the security issues are quite complex to exploit, and the performance gain is noticeable.
- HTTP/2 should be considered, as it only opens one connection (and hence only one SSL/TLS setup) and has other performance improvements.
I would really need to know your site to see which if above (if any) can be improved. If not willing to give that, then I suggest you run ssllabs test and ask for help with anything it raises you don't understand, as it can require a lot of detailed knowledge to understand.
I run a personal blog explaining some of these concepts in more detail if that helps: https://www.tunetheweb.com/security/https/