I think the Oracle guide referenced ("second article") unfortunately has an error in this paragraph, or is very misleading (and define throughput as something different without making this clear).
You reference the Java SE 6 HotSpot gc tuning guide, but the error is also in the Java 11 version:
Java SE11, HotSpot Virtual Machine Garbage Collection Tuning Guide, chapter 4, Factors Affecting Garbage Collection Performance:
Chapter 4, "Factors Affecting Garbage Collection Performance":
Total Heap
The most important factor affecting garbage collection performance is
total available memory. Because collections occur when generations
fill up, throughput is inversely proportional to the amount of memory
available.
The rest of the guide does use the term as application/system throughput, and throughput generally is one of three GC tuning goals, so I consider this to be an error. (I think the rest of the guide is good).
As far as I understand this should generally be the opposite:
Throughput is generally proportional to the amount of memory
available.
(Not considering tuning specific effects, - it is possible in some cases to add memory and get less throughput.)
I choose to cite from an authority on this, Java Performance by Charlie Hunt and Binu John, which I think presents the definitions and relations between throughput, memory and latency quite clear in chapter 7 "Tuning the JVM, Step by Step" page 256-257:
Throughput
Throughput is a measure of the amount of work that can be performed
per unit time. A throughput requirement ignores latency or
responsiveness. Usually, increased throughput comes at the expense of
either an increase in latency and/or an increase in memory footprint.
An example of a performance throughput requirement is “the application
shall execute 2500 transactions per second.”
Latency and Responsiveness
Latency, or responsiveness, is a measure of the elapsed time between
when an application receives a stimulus to do some work and that work
is completed. A latency or responsiveness requirement ignores
throughput. Usually, increased responsiveness or lower latency, comes
at the expense of lower throughput and/or an increase in memory
footprint.
An example of a latency or responsiveness requirement is “the
application shall execute trade requests to completion within 60
milliseconds.”
Memory Footprint
Memory footprint is a measure of the amount of memory required to run
an application at a some level of throughput, some level of latency,
and/or some level of availability and manageability. Memory footprint
is usually expressed as either the amount of Java heap required to run
the application and/or the total amount of memory required to run the
application. Usually, an increase in memory footprint via an increase
in Java heap size can improve throughput or reduce latency, or both.
As the memory made available for an application is decreased,
throughput or latency is generally sacrificed.